System, method, and computer program product for communicating location-related information

ABSTRACT

A system, method, and computer program product are provided for communicating location-related information. In operation, a vehicular assembly is utilized to communicate with a mobile device. Additionally, a location of a vehicle associated with the vehicular assembly is identified, utilizing the vehicular assembly. Furthermore, information based on the location is generated. Still yet, the information is communicated utilizing the mobile device.

RELATED APPLICATIONS

The present application claims priority from U.S. ProvisionalApplication No. 61/091,231, filed Aug. 22, 2008, which is incorporatedherein by reference in its entirety for all purposes.

BACKGROUND AND FIELD OF THE INVENTION

The present invention relates to vehicular assembly functionality, andmore particularly to vehicular assembly functionality in associationwith a mobile device.

SUMMARY

A system, method, and computer program product are provided forcommunicating location-related information. In operation, a vehicularassembly is utilized to communicate with a mobile device. Additionally,a location of a vehicle associated with the vehicular assembly isidentified, utilizing the vehicular assembly. Furthermore, informationbased on the location is generated. Still yet, the information iscommunicated utilizing the mobile device.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates a communication system, in accordance with oneembodiment.

FIG. 2 shows a representative hardware environment that may beassociated with the mobile device, the servers and/or clients of FIG. 1,in accordance with one embodiment.

FIG. 3 shows a configuration for an automobile capable of interfacingwith the mobile device of FIG. 1, in accordance with one embodiment.

FIG. 4 shows a method for executing commands of a mobile deviceutilizing a communication and entertainment system of a vehicle, inaccordance with one embodiment.

FIG. 5A shows a method for voice-enabled access to mobile device data,in accordance with one embodiment.

FIG. 5B shows a method for synchronizing a mobile device and a vehicularassembly, in accordance with one embodiment.

FIG. 6 shows a method for voice-enabled access to mobile device data, inaccordance with another embodiment.

FIG. 7 shows a diagram showing data that is to be received by avehicular assembly over a period of time, in accordance with oneembodiment.

FIG. 8A shows a method for utilizing a communication channel of a mobiledevice by a vehicular assembly, in accordance with one embodiment.

FIG. 8B shows a method for utilizing a mobile device as a platform toexecute software to provide functionality via a vehicular assembly, inaccordance with one embodiment.

FIG. 8C shows a method for navigating a network, in accordance with oneembodiment.

FIG. 9A shows a method for utilizing a communication channel of a mobiledevice by a vehicular assembly, in accordance with another embodiment.

FIG. 9B shows a system for utilizing a communication channel of a mobiledevice by a vehicular assembly, in accordance with another embodiment.

FIG. 10A shows a method for incorporating contacts from a mobile deviceinto a points-of-interest database of a vehicular assembly, inaccordance with one embodiment.

FIG. 10B shows a method for social networking utilizing a vehicularassembly, in accordance with one embodiment.

FIG. 11 shows a method for social networking utilizing a vehicularassembly, in accordance with one embodiment.

FIG. 12 shows an interface for adding contacts to be displayed on avehicular assembly, in accordance with one embodiment.

FIG. 13 shows an interface for displaying a contact location, inaccordance with one embodiment.

FIG. 14A shows a method for instant messaging utilizing a vehicularassembly, in accordance with one embodiment.

FIG. 14B shows a method for communicating location-related information,in accordance with one embodiment.

FIG. 14C shows a method for voice controlled attachments, in accordancewith one embodiment.

FIG. 15 shows a method for voice controlled attachments and forcommunicating location-related information, in accordance with anotherembodiment.

FIG. 16A shows a method for voice controlled attachments, in accordancewith another embodiment.

FIG. 16B shows a method for communicating location-related information,in accordance with another embodiment.

FIG. 17 shows an interface for communicating and displayinglocation-related information, in accordance with another embodiment.

FIG. 18 shows a method for programmable mobile device controls, inaccordance with one embodiment.

FIG. 19 shows a method for programmable mobile device controls, inaccordance with another embodiment.

FIG. 20 shows a system for programmable mobile device controls, inaccordance with one embodiment.

FIG. 21 shows a method for providing enhanced passenger displayfunctionality, in accordance with one embodiment.

FIG. 22 shows a method for providing enhanced passenger displayfunctionality, in accordance with another embodiment.

FIG. 23 shows a system for providing enhanced passenger displayfunctionality, in accordance with one embodiment.

FIG. 24 shows a method for community-based traffic conditioninformation, in accordance with one embodiment.

FIG. 25 shows a method for community-based traffic conditioninformation, in accordance with another embodiment.

FIG. 26 shows a method for location based messaging, in accordance withone embodiment.

FIG. 27 shows a method for location based messaging, in accordance withanother embodiment.

FIG. 28 shows an interface for location based messaging, in accordancewith one embodiment.

FIG. 29 shows a method for generating navigation information based oncalendar information, in accordance with one embodiment.

FIG. 30 shows a method for generating navigation information based oncalendar information, in accordance with another embodiment.

FIG. 31 shows an interface for generating navigation information basedon calendar information, in accordance with one embodiment.

FIG. 32 shows a method for creating a map in association with anaddress, in accordance with one embodiment.

FIG. 33 shows an interface for creating a map in association with anaddress, in accordance with one embodiment.

FIG. 34 shows a method for selectively retrieving data from a mobiledevice in communication with a vehicular assembly, in accordance withone embodiment.

FIG. 35 shows a system for accessing one or more online applications, inaccordance with one embodiment.

FIG. 36 shows a representative environment that may be associated withthe servers and/or clients of FIG. 35, in accordance with oneembodiment.

FIG. 37 shows a method for linking a plurality of tags with a document,in accordance with one embodiment.

FIG. 38 shows a method for linking a plurality of tags with a document,in accordance with another embodiment.

FIG. 39 shows a method for suggesting tags or automatically selectingtags, in accordance with another embodiment.

FIG. 40 shows an interface for linking a plurality of tags with adocument, in accordance with one embodiment.

FIG. 41 shows a method for applying a function of an online applicationto a file generated by a second online application, in accordance withone embodiment.

FIG. 42 shows a system for applying a function of an online applicationto a file generated by a second online application, in accordance withone embodiment.

FIG. 43 shows a method for applying a function of an online applicationto a file generated by a second online application, in accordance withone embodiment.

FIG. 44 shows a network browser for applying a function of an onlineapplication to a file generated by a second online application, inaccordance with one embodiment.

FIG. 45 shows a method for accommodating different online applications,in accordance with one embodiment.

FIG. 46 shows a method for accommodating different online applications,in accordance with one embodiment.

FIG. 47 shows a network browser plugin for accommodating differentonline applications, in accordance with one embodiment.

FIG. 48 shows a network browser for accommodating different onlineapplications, in accordance with one embodiment.

FIG. 49 shows a method for storing attachments of an electronic messagein a central location associated with an online application from whichthe attachment was generated, in accordance with one embodiment.

FIG. 50 shows a method for storing attachments of an electronic messagein a central location associated with an online application from whichthe attachment was generated, in accordance with one embodiment.

FIG. 51 shows a system for storing attachments of an electronic messagein a central location associated with an online application from whichthe attachment was generated, in accordance with one embodiment.

FIG. 52 shows an interface for an electronic message application foridentifying a file associated with an electronic message, in accordancewith one embodiment.

FIG. 53 shows a method for displaying a single interface that includes aplurality of files, in accordance with one embodiment.

FIG. 54 shows a method for displaying a single interface that includes aplurality of files, in accordance with another embodiment.

FIG. 55 shows a data structure of global login information for a singleinterface that includes a plurality of files associated with a pluralityof different online applications, in accordance with one embodiment.

FIG. 56 shows a file structure shown in a single interface that includesa plurality of files associated with a plurality of different onlineapplications, in accordance with one embodiment.

FIG. 57 shows a network browser for displaying a single interface thatincludes a plurality of files, in accordance with one embodiment.

FIG. 58 shows a method for utilizing a network browser as a desktop, inaccordance with one embodiment.

FIG. 59 shows a method for utilizing a network browser as a desktop, inaccordance with another embodiment.

FIG. 60 shows a network browser for using as a desktop, in accordancewith another embodiment.

FIG. 61 shows a network browser for using as a desktop, in accordancewith another embodiment.

FIG. 62 shows a method of advertising in conjunction with onlineapplications, in accordance with one embodiment.

FIG. 63 shows a method of advertising in conjunction with onlineapplications, in accordance with one embodiment.

FIG. 64 shows a network browser for viewing advertisements inconjunction with files associated with online applications, inaccordance with one embodiment.

FIG. 65 shows a method for performing a search in conjunction with useof an online application, in accordance with one embodiment.

FIG. 66 shows an interface for performing a search in conjunction withuse of an online application, in accordance with one embodiment.

FIG. 67 shows a method for focusing a search, in accordance with oneembodiment.

FIG. 68 shows an interface for focusing a search, in accordance with oneembodiment.

FIG. 69 shows a method for executing an online application on a mobiledevice, in accordance with one embodiment.

FIG. 70 shows an interface for executing an online application on amobile device, in accordance with one embodiment.

FIG. 71 shows a method for intelligent cutting and pasting, inaccordance with one embodiment.

FIG. 72 shows an interface for intelligent cutting and pasting, inaccordance with one embodiment.

DETAILED DESCRIPTION

FIG. 1 illustrates a communication system 100, in accordance with oneembodiment. As shown, a mobile device 102 is capable of interfacing witha vehicle 104 including various components of the vehicle 104. Themobile device 102 may include any mobile device capable of interfacingwith a vehicle 104 including a lap-top computer, hand-held computer,mobile phone, personal digital assistant (PDA), a music player (e.g. adigital music player, etc.), a GPS device, etc.

In various embodiments, the mobile device 102 may communicate with avehicular assembly system (e.g. a communication and entertainmentsystem, etc.) corresponding to the vehicle 104 via a wireless connection(e.g. Bluetooth, etc.), or via a cable connection (e.g. a USB cable, aserial cable, etc.). As an option, the mobile device 102 may interfacewith the communication and entertainment system vehicle utilizing an I/Oport 106 of the vehicle 104. In various embodiments, the I/O port 106may include a serial port, a USB port, FireWire/i.LINK ports, etc. Inone embodiment, the I/O port 106 may include a wireless communicationport.

Using this interface, the mobile device 102 may interface with variouscomponents and functionality of the vehicle, such as an onboard computersystem including a processor 108, memory 110 (e.g. DRAM, flash memory,etc.), an onboard navigation system 112, displays (e.g. a centraldisplay 114, and one or more passenger displays 116, etc.), audiocommunication devices (e.g. speakers 118, a microphone 120, etc.), andvarious other components and functionality of the vehicle included inthe vehicular assembly system. The interface may also allow a user ofthe vehicle 104 to access and/or control the mobile device 102 utilizingcontrols associated with the vehicle 104, such as steering wheel,dashboard, and radio controls 122. Additionally, the user may accessand/or control the mobile device utilizing the microphone 120 throughvoice commands.

Using these components and controls, a user may access and utilize oneor more wireless networks 124 associated with the mobile device 102.Coupled to the networks 124 may be servers 126 which are capable ofcommunicating over the networks 124. Also coupled to the networks 124and the servers 126 is a plurality of clients 128.

Such servers 126 and/or clients 128 may each include a desktop computer,lap-top computer, hand-held computer, mobile phone, personal digitalassistant (PDA), peripheral (e.g. printer, etc.), any component of acomputer, and/or any other type of logic. In order to facilitatecommunication among the networks 124, at least one gateway is optionallycoupled therebetween.

It should be noted that the computer system of the vehicle 104 mayinclude various software and applications for facilitating communicationbetween the vehicle 104 and the mobile device 102. For example, invarious embodiments, the vehicle computer system may include anoperating system (e.g. Windows Mobile, Linux, etc.), embedded speechrecognition software, telephone call steering systems, automatedtelephone directory services, character recognition software, andimaging software.

FIG. 2 shows a representative hardware environment that may beassociated with the mobile device 102, the servers 126 and/or clients128 of FIG. 1, in accordance with one embodiment. Such figureillustrates a typical hardware configuration of a device in accordancewith one embodiment having a central processing unit 210, such as amicroprocessor, and a number of other units interconnected via a systembus 212.

The device shown in FIG. 2 includes a Random Access Memory (RAM) 214,Read Only Memory (ROM) 216, an I/O adapter 218 for connecting peripheraldevices such as disk storage units 220 to the bus 212, a user interfaceadapter 222 for optionally connecting an input interface 224 (e.g. akeyboard, etc.), a mouse 226, a speaker 228, a microphone 232, and/orother user interface devices such as a touch screen (not shown) to thebus 212, communication adapter 234 for connecting the workstation to acommunication network 235 (e.g., a data processing network) and adisplay adapter 236 for connecting the bus 212 to a display device 238.

The device may have resident thereon any desired operating system. Itwill be appreciated that an embodiment may also be implemented onplatforms and operating systems other than those mentioned. Oneembodiment may be written using JAVA, C, and/or C++ language, or otherprogramming languages, along with an object oriented programmingmethodology. Object oriented programming (OOP) has become increasinglyused to develop complex applications.

Of course, the various embodiments set forth herein may be implementedutilizing hardware, software, or any desired combination thereof. Forthat matter, any type of logic may be utilized which is capable ofimplementing the various functionality set forth herein.

FIG. 3 shows a configuration 300 for an automobile capable ofinterfacing with the mobile device 102 of FIG. 1, in accordance with oneembodiment. As shown, the mobile device 102 may be coupled to theautomobile utilizing a wired connection, such as a USB connection, etc.,or a wireless connection such as Bluetooth, etc.

Using this connection, a user (e.g. a driver or, passenger, etc.) mayoperate the mobile device 102, via the automobile, using voice commands,steering wheel controls 302, radio controls 304, and/or dashboardcontrols. Furthermore, the mobile device may communicate with vehicledisplays (e.g. main displays, passenger displays 306, etc.) such thatcontent associated with the mobile device (e.g. stored content,streaming content, etc.) may be displayed. For example, the mobiledevice may communicate stored video to at least one of the passengerdisplays 306. Additionally, the mobile device may communicate streamingor stored audio such that the audio may be transmitted utilizing anaudio system of the automobile.

By interfacing the mobile device 102 with the automobile,voice-activated, hands-free calling may also be implanted. For example,a “Push to Talk” button on the steering wheel may allow the user toaccess contacts stored in a contact list of the mobile device 102 byvoice command. Furthermore, the user may be able to switch use from themobile device 102 to the vehicle control system transparently. Forexample, a user may push a “Telephone” button on the steering wheel toautomatically transfer a current telephone call to the automobilecommunication system of the automobile without having to hang up andcall again.

As an option, the text messages received by the mobile device 102 may beconverted to audio utilizing a vehicle on-board processor and associatedvoice-to-text software. The communication system of automobile may thenoutput the converted text in an audio stream via speakers. In oneembodiment, the communication system associated with the automobile mayinclude a main display 308 for displaying activities associated with themobile device 102, along with other functionality (e.g. navigationalfunctionality, etc.).

For example, the communication system may display any feature that iscapable of being displayed using the mobile device 102. In variousembodiments, such features may include caller ID, call waiting,conference calling, a caller log, a list of contacts, a signal strengthicon, and a phone battery charge icon, a music list, a content list,etc. Additionally, voice-activated music may also be implemented. Forexample, the on-board communication and entertainment system may allowsa user to browse through music collections by genre, album, artist, andsong title using simple voice commands.

FIG. 4 shows a method 400 for executing commands of a mobile deviceutilizing a communication and entertainment system of a vehicle, inaccordance with one embodiment. As an option, the method 400 may beimplemented in the context of the architecture and environment of FIGS.1-3. Of course, however, the method 400 may be carried out in anydesired environment.

As shown, it is determined whether a connected is made between a mobiledevice and a computer system of a vehicle (i.e. a communication andentertainment system). See operation 402. Data to be controlled by voicecommands is then retrieved from the mobile device. See operation 404. Invarious embodiments, the data may include music, contacts, and otherdata.

Tags are then generated, based on the data. See operation 406. Once thetags are generated, it is determined whether a trigger signal isreceived. See operation 408. For example, the trigger signal may beinitiated by a button on a vehicular console, steering wheel, or a keyword or phrase used for triggering.

If a trigger signal is received, it is determined whether an utteranceis received. See operation 410. In this case, the utterance may be acommand from a user. As another option, the utterance may be an inquiryfrom the user. If an utterance is received, the utterance is comparedagainst the tags. See operation 412.

It is then determined whether the utterance and one of the tags are asufficient match. See operation 414. In this case, the determination maybe based on a threshold. This threshold may be a pre-establishedthreshold based on a error tolerance, for example.

If the utterance fails to match any tag sufficiently, the user isprompted for a verification. See operation 416. In one embodiment, theverification may include outputting an audible inquiry. The audibleinquiry may include a closest matched tag to the utterance. As anoption, the verification may occur multiple times, with every subsequentinquiry including the next closest match to the utterance. In oneembodiment, the number of verifications may be user configurable.

Once it is determined that the utterance matches one of the tags, thecommand is confirmed and executed. See operations 420-422. For example,if the utterance included a command “Call BOB,” the utterance would becompared against tags to determine if a tag corresponds to “BOB,” and ifit does, the call command would be confirmed and BOB would be called.

FIG. 5A shows a method 500 for voice-enabled access to mobile devicedata, in accordance with one embodiment. As an option, the method 500may be implemented in the context of the architecture and environment ofFIGS. 1-4. Of course, however, the method 500 may be carried out in anydesired environment.

As shown, data from a mobile device is received utilizing a vehicularassembly. See operation 502. In this case, the data includes at leastone of electronic message data, calendar data, and bookmark data. Invarious other embodiments, the data may further include data relating tostocks (e.g. a stock symbol, saved stock quotes, etc.), recent calldata, ring tone data, photos, notes, email configurations, etc.

Furthermore, the vehicular assembly may include any interface forreceiving data from the mobile device, along with processing/computingdevices, displays, memory, software, and various other functionality.Thus, the vehicle assembly may include any computer system (e.g. acommunication and entertainment system, navigation system, etc.)corresponding to the vehicle. In various embodiments, the data may bereceived over a wireless channel (e.g. Bluetooth, etc.) or a wiredchannel (e.g. a USB channel, etc.).

In one embodiment, the data may be retrieved from the mobile device inresponse to an initial communication of the mobile device and thevehicular assembly. For example, upon establishing a connection betweenthe mobile device and the vehicle, the data may be automaticallyretrieved from the mobile device.

In another embodiment, a user may be prompted to authorize data transferbetween the mobile device and the vehicle. As an option, the initialcommunication between the mobile device and the vehicle may include averification. For example, it may be verified that the mobile device isauthorize to connect using the vehicular assembly.

In various embodiments, all of the data on the mobile device may bereceived, or a subset of the data may be received. For example, only asubset of the data may be received from the mobile device for generatingthe tags, to reduce a time required for initialization. In this case,the subset of data to be received may include a pre-defined subset ofdata.

As an option, a user may have the ability to select data to be received.For example, the user may select categories of data to be received orindividual data to be relieved. In one embodiment, this configurationmay be a configuration stored on the mobile device. In anotherembodiment, this configuration may be a configuration stored in anon-board computer system of the vehicle.

In various embodiments, the user may configure these settings using theon-board computer system of the vehicle, the mobile device, and/oranother computer system to which the mobile device may be connected. Asanother option, the configuration may include a default configurationsetting defining data or data categories to be received.

In one embodiment, only updated or recent data may be received. Forexample, the configuration may be set such that only data updated orstored on the mobile device since the communication between thevehicle's computer system and the mobile device is received. In thisway, the subset of the data may be selected based on a predeterminedcriteria selected by a user, based on previous use of the mobile deviceor vehicular assembly, and/or based on whether the data was previouslyreceived.

In another embodiment, the predetermined criteria may be based on whatfunctionality of a vehicle associated with the vehicular assemblysupports. For example, the mobile device may include GPS functionalitybut the vehicle may not. In this case, the data associated with the GPSfunctionality may not be retrieved.

Once the data is retrieved, tags associated with the data are generated.See operation 504. In the context of the present description, tags referto any keyword or term assigned to data. As an option, the tags may bestored in the vehicular assembly. As another option, the tags associatedwith a portion of the data other than the subset to be retrieved may bestored in the vehicular assembly.

Additionally, an utterance is received. See operation 506. The utterancemay include any audible command or inquiry. For example, the utterancemay include a command to dial a number, play music, send an email, senda text mail, access a calendar, etc.

Still yet, access to the data is provided in response to the utterance,utilizing the tags. See operation 508. In various embodiments, the datamay be provided in an audible form and/or a visual form. In some cases,the form in which the data is provided may depend on the command. Inother cases, the form in which the data is provided may depend on userpreferences.

It should be noted that, by only retrieving a subset of data from themobile device, an initialization time may be minimized. In this case,the initialization time may correlate to the amount of tags to begenerated. Thus, by only retrieving a subset of the data, time may beconserved that may otherwise be wasted on generating tags that may notnecessarily be used by a user.

Additionally, in one embodiment, a first portion of data may be receivedfrom a mobile device utilizing a vehicular assembly. Subsequently, afirst set of tags associated with the first portion of the data may begenerated. An utterance may then be received, and while simultaneouslyproviding access to the first portion of the data in response to theutterance utilizing the first set of tags, a second portion of data maybe received from the mobile device utilizing the vehicular assembly, anda second set of tags associated with the second portion of the data maybe generated. Thus, the second portion of the data may be received afterthe first set of tags associated with the first portion of the data aregenerated to minimize an initialization time associated with the firstportion of the data.

In this way, a first set of tags may be generated for data correspondingto functionality that a user may desire to use immediately (e.g. music,contacts, etc.), such that access may be allowed the data. Whileaccessing this data, or having the ability to access this data, otherdata not necessarily needed immediately (e.g. electronic message data,calendar data, bookmark data, etc.) may be retrieved and tags generated.Upon completion of this segmented initialization, the user would haveaccess to all desired data. In various embodiments, this segmentedinitialization may include one or more stages.

In addition to retrieving data from the mobile device and generatingtags based on that data, the mobile device and the vehicular assemblymay be synchronized. FIG. 5B shows a method 550 for synchronizing amobile device and a vehicular assembly, in accordance with oneembodiment. As an option, the method 550 may be implemented in thecontext of the architecture and environment of FIGS. 1-5A. Of course,however, the method 550 may be carried out in any desired environment.It should also be noted that the aforementioned definitions may applyduring the present description.

As shown, a vehicular assembly is utilized to communicate with a mobiledevice. See operation 552. First data stored in the vehicular assemblyis identified. See operation 554. Additionally, second data stored inthe mobile device in identified. See operation 556. Further, the firstdata and the second data are synchronized. See operation 558.

In one embodiment, at least one of the first data and the second datamay include favorite stations. For example, a user may have updated afavorite station list using the vehicular assembly or the mobile device.In this case, the favorite station list of the mobile device and thevehicular assembly may be synchronized. In one embodiment, the favoritestations may be updated on the vehicular assembly by programming a newstation. In this case, the new station may be stored in the mobiledevice upon synchronization.

In another embodiment, a new station may be configured on the mobiledevice. For example, using the mobile device, a user may configure aradio station to stream music to the device. This station informationmay then be stored in the vehicular assembly upon synchronization.

In still another embodiment, at least one of the first data and thesecond data may include includes digital media. For example, in variousembodiments the digital media may include music or video. In this case,music stored on the mobile device may updated by purchasing or uploadingmusic to the mobile device using another computer system. In this case,upon connecting with the vehicular assembly, the data stored utilizingthe vehicular assembly may be updated with the new music.

In yet another embodiment, the first data and the second data mayinclude contact information. In this case, the content information mayinclude a name, phone number, and home address, a business address, anemail address, etc.

Still yet, in one embodiment, the first data and the second data mayinclude points-of-interest. In the context of the present description,points-of-interest refer to points corresponding to coordinates (e.g.GPS coordinates, map coordinates, etc.) that have been defined as apoint-of interest. In one embodiment, the points-of-interest may be userdefined points of interest.

For example, a user may define a point of interest utilizing anavigational system corresponding to the vehicle or the vehicleassembly. Upon connecting to the mobile device, the point-of interestmay be updated and stored on the mobile device. As another example, theuser may define a point-of-interest using the mobile device. Uponconnecting to the mobile device, the point-of interest may be updatedand stored on the vehicular assembly.

In another embodiment, at least one of the first and the second data mayinclude software. For example, a software application may be installedon the mobile device. Upon connecting to the vehicular assembly, thesoftware application may be installed on the vehicular assembly.

In yet another embodiment, at least one of the first and the second datamay include a software patch or update. For example, the mobile devicemay upload a software patch of update via a wireless connection or via aconnection with another computer system. Upon connecting the mobiledevice, the software patch or update may be stored on the vehicularassembly system. Subsequently, the software patch or update may beinstalled.

As an option, the software patch or update may correspond to anoperating system of the vehicular assembly. In this case, synchronizingthe data may allow the operating system of the vehicular assembly to beupdated via the mobile device. As another option, the software, softwarepatch, or software update may include antivirus software, updates, orpatches.

In another embodiment, at least one of the first and the second data mayinclude information corresponding to the vehicular assembly. In thiscase, the information may include hardware information, softwareinformation, revision information, version information, operating systeminformation, etc. As an option, this information may be utilized by themobile device to obtain software updates for the vehicular assembly.

In one embodiment, a first subset of at least one of the first data andthe second data that has already been synchronized may be determined.Subsequently, only a second subset of at least one of the first data andthe second data that has not already been synchronized may then besynchronized. This may allow for a more efficient synchronizationprocess because processing power and time may be allocated to data thathas not been synchronized.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing techniquemay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 6 shows a method 600 for voice-enabled access to mobile devicedata, in accordance with another embodiment. As an option, the method600 may be implemented in the context of the architecture andenvironment of FIGS. 1-5B. Of course, however, the method 600 may becarried out in any desired environment. Again, the aforementioneddefinitions may apply during the present description.

As shown, it is determined whether a connection is made with a mobiledevice. See operation 602. Once a connection has been made,predetermined criteria is identified that may be used to select a subsetof data to be received from the mobile device for generating tags. Seeoperation 604.

For example, the predetermined criteria may be based on previous use ofthe mobile device or vehicular assembly, whether the data was previouslyreceived, what functionality of a vehicle associated with the vehicularassembly supports, and/or any other user or automatically definedcriteria.

Once the criteria is identified, a subset of data to be retrieved fromthe mobile device is identified based on the criteria. See operation606. Only the identified subset of data is retrieved. See operation 608.Tags are then generated for only the retrieved subset of data. Seeoperation 610. Subsequently, voice enabled access is allowed to all datawith corresponding tags. See operation 612.

FIG. 7 shows a diagram 700 showing data that is to be received by avehicular assembly over a period of time, in accordance with oneembodiment. As an option, the method 700 may be implemented in thecontext of the architecture and environment of FIGS. 1-6. Of course,however, the method 700 may be carried out in any desired environment.Again, the aforementioned definitions may apply during the presentdescription.

As shown, the first time a mobile device is connected to a vehicularassembly (e.g. through a wireless or wired connection), all data that isselected to be received by or synchronized with the vehicular assemblyis received by the vehicular assembly and tags are generated. The nexttime the mobile device is connected to the vehicular assembly, not allof the data needs to be received by the vehicular assembly because tagshave already been generated and stored from the first time the mobiledevice was connected. Thus, only the data on the mobile device that hasnot been previously received or synchronized by the vehicular assemblymay be received. Of course, the data to be received may be based oncriteria determining a subset of data to be received, as mentionedabove.

Once the data that has not previously been received is received by thevehicular assembly, the vehicular assembly may generate tags for suchdata and store the tags with any previously generated tags. A third timethe mobile device is connected, the same sequence of events may occur,such that only new or updated data on the mobile device is received fortag generation.

It should be noted, that although FIG. 7 is described in the context oftag generation, a similar sequence of events may occur for datasynchronization between the mobile device and the vehicular assembly.For example, once connected, only new or updated data on the mobiledevice or the vehicular assembly may be synchronized. In oneembodiments, data to be received for tag generation and/or data to besynchronized between the device and the vehicular assembly may be markedwith a flag. In another embodiment, a time stamp may be utilized todetermine whether data is to be received for tag generation and/or datato be synchronized between the device and the vehicular assembly. Inthis way, an overall initialization time may be minimized wheninitializing a mobile device and/or the vehicular assembly such thatvoice-enabled access to mobile device data may be enabled.

In addition to providing voice-enabled access to mobile device data andaccessing the mobile device functionality, in another embodiment, acommunication channel of the mobile device may be utilized by thevehicular assembly to perform at least one vehicular assembly function.FIG. 8A shows a method 800 for utilizing a communication channel of amobile device by a vehicular assembly, in accordance with oneembodiment. As an option, the method 800 may be implemented in thecontext of the architecture and environment of FIGS. 1-7. Of course,however, the method 800 may be carried out in any desired environment.Again, the aforementioned definitions may apply during the presentdescription.

As shown, a vehicular assembly communicates with a mobile device havinga wireless communication channel (e.g. a broadband wireless channel, acellular wireless channel, etc.). See operation 802. Additionally, atleast one vehicular assembly function is performed utilizing thewireless communication channel of the mobile device. See operation 804.In various embodiments, the communication between the mobile device andthe vehicular assembly may be wired or wireless.

In the context of the present description, a vehicular assembly functionrefers to any function capable of being performed by the vehicularassembly. In one embodiment, the vehicular assembly function may includea navigation function. For example, the vehicular assembly may include anavigational system or an interface to a navigational system.

In this case, data including updated traffic data and/or updated roadwaydata may be received over the wireless communication channel. Anavigation function may then use this data to route or reroute a pathfor the vehicle. As another option, the navigational information may bedisplayed to a user. In this way, the at least one vehicular assemblyfunction may utilize data received over the wireless communicationchannel.

In one embodiment, the vehicular assembly function may utilize GPS datareceived by the vehicular assembly and/or the mobile device. Forexample, the vehicle assembly may receive GPS data for a particularlocation and utilize the mobile device to determine more informationabout this location. For example, a user may use navigationalfunctionality of the vehicular assembly to find GPS coordinates for abusiness. The wireless connection of the mobile device may then beutilized to access information relating to the business such that theinformation may be displayed using a display associated with thevehicular assembly.

In another embodiment, the vehicular assembly function may include acommunication function between a local person and a remote person. Forexample, the vehicular assembly may include a communication system. Inthis case, social network data or other contact data may be received bythe mobile device. This data may be used by the communication functionto be performed utilizing the wireless communication channel of themobile device.

In still another embodiment, the vehicular assembly function may includea display function. In this case, digital media data may be receivedover the wireless communication channel of the mobile device. Thisdigital media may be displayed on a display associated with thevehicular assembly. In one embodiment, data received from the wirelesscommunication channel of the mobile device may be streamed directly tothe display. In another embodiment, the content may be stored in thevehicular assembly and then displayed using the display.

Similarly, in one embodiment, the vehicular assembly function mayinclude an audible function. In this case, audio data may be receivedover the wireless communication channel of the mobile device. This audiodata may be played on an audio system associated with the vehicularassembly. In one embodiment, audio data received from the wirelesscommunication channel of the mobile device may be streamed directly tothe audio system. In another embodiment, the audio data may be stored inthe vehicular assembly and then output using the audio system.

In some cases, social network data may be received over the wirelesscommunication channel. For example, the social networking data mayinclude a location of one of more contacts (e.g. GPS coordinates, anaddress, a business name, etc.), a traveling speed of one or morecontacts, and a destination of one or more contacts, etc. The contactsmay be predetermined people stored in a contact list of the mobiledevice for example.

This social networking data may be configured to automatically update orto be manually updated using the mobile device. For example, a mobiledevice of a first user may query a mobile device of a second user forthe social networking data. The mobile device of the second user maythen supply the requested information. As another option, the first usermay manually query the second user for the social networking data usingthe mobile device (e.g. via a text message, etc.).

In either case, the vehicular assembly may utilize the social networkingdata received. For example, the vehicular assembly may automaticallyupdate a navigational system corresponding to the vehicular assemblywith the social networking data. In one embodiment, the vehicularassembly may use this social networking data to calculate a route. As anoption, this route may be calculated automatically. In one embodiment, auser may be prompted to verify the route calculation before the route iscalculated.

It should be noted that the data received by the mobile device utilizingthe wireless communication channel may either be automatically providedor a user may request the data. For example, the mobile device and/orthe vehicular assembly may be configured to automatically query for thedata. In this case, the query may be a periodic query.

As another option, the data may be provided automatically as streamingcontent to the mobile device. As still another option, a user maymanually request the data. For example, the user may request the datautilizing the mobile device or the vehicular assembly.

In one embodiment, a text message may include the request. In anotherembodiment, the user may use a voice command directed towards thevehicular assembly or the mobile device. In this case, speechrecognition software may be utilized to recognize the command aninitiate the manual request. As an option, voice-to-text functionalitymay be utilized to issue the request. In this way, the user may usefunctionality associated with the vehicular assembly to request thedata.

In addition to utilizing a communication channel of the mobile device toperform at least one vehicular assembly function, in another embodiment,the mobile device may be utilized as a platform to execute software toprovide functionality via a vehicular assembly. FIG. 8B shows a method850 for utilizing a mobile device as a platform to execute software toprovide functionality via a vehicular assembly, in accordance with oneembodiment. As an option, the method 850 may be implemented in thecontext of the architecture and environment of FIGS. 1-8A. Of course,however, the method 850 may be carried out in any desired environment.The aforementioned definitions may apply during the present description.

As shown, a mobile device is used to communicate with a vehicularassembly. See operation 852. Additionally, an application program isexecuted, utilizing the mobile device. See operation 854. Further, userinput to the application program is received via the vehicular assembly.See operation 856. Still yet, functionality of the application programis outputted via the vehicular assembly, based on the input. Seeoperation 858.

The application program may include any software application capable ofbeing executed utilizing the mobile device. For example, in oneembodiment, the application program may include a media playerapplication. In various embodiments, the media player application mayinclude an on-line radio station, an on-line video station (e.g. anon-line news station, an on-line TV station, etc.), a digital videoplayer, a digital audio player, etc. In another embodiment, theapplication may include a finance related application (e.g. stocks,etc.), a web browser, a map application, a calendar application, apicture viewing application, a weather application, and/or any otherapplication. Thus, the application program may be operable to interfacewith an on-line application program via a network for outputting thefunctionality.

As an option, the user input may select one of a plurality of theapplication programs to execute. In this case, the user input maycontrol the application program. In one embodiment, the user input maybe received by a microphone of the vehicular assembly. For example, theuser may issue a voice command to execute a particular application onthe mobile device.

In another embodiment, the user input may be received by a touch screenof the vehicular assembly. For example, icons or text may be displayedon the touch screen that correspond to applications on the mobiledevice. As an option, the touch screen may display a mirror image ofwhat is displayed on the mobile device. The user may then use this touchscreen to control the applications and/or the mobile device.

In still another embodiment, the user input may be received by asteering wheel control of the vehicular assembly. In this case, the usermay input a command to select and/or control an application of themobile device using button on the steering wheel control. As an option,results of this selection and/or control may be displayed on a displayof the vehicular assembly.

Depending on the functionality of the application program, thefunctionality may be outputted via different devices of the vehicularassembly. For example, in the case that the functionality of theapplication program includes audio functionality (e.g. for a streamingaudio application, etc.), the functionality may be outputted by aspeaker of the vehicular assembly. In the case that the functionality ofthe application program includes visual data functionality (e.g. text,video, images, icons, etc.), the functionality may be outputted by ascreen of the vehicular assembly.

In one embodiment, the application program may interface with anavigation system of the vehicular assembly. For example, theapplication program may include navigational software capable ofinterfacing with the navigational system. In this case, the navigationalsoftware may include maps, GPS coordinates for locations, etc.

As another example, the application program may include socialnetworking software capable of providing location information,destination information, travel speed information, etc., for contacts.In this case, the social networking software may provide thenavigational system with this information such that the navigationsystem may create routes, points-of-interest, calculate distances, etc.

In one embodiment, the functionality of the application programoutputted via the vehicular assembly may be related to a navigation of avehicle of which the vehicle assembly is a component. For example, theapplication program may supply road condition information, trafficcondition information, weather information, and/or other information tothe navigation system of the vehicle. Additionally, the mobile devicemay include a GPS system capable of supplying GPS coordinates and othernavigational information to the vehicular assembly.

In another embodiment, the functionality of the application programoutputted via the vehicular assembly may be related to a presentation ofdigital media in a vehicle of which the vehicle assembly is a component.For example, the functionality may be any functionality that may beoutput visually using a display, or audibly using speakers.

In still another embodiment, the functionality of the applicationprogram outputted via the vehicular assembly may be related to acommunication between a user of a vehicle of which the vehicle assemblyis a component and a remote entity. For example, the functionally mayinclude a text messaging functionality, an email functionality, and adirect communication functionality, etc. that is capable ofCommunicating with a remote entity (e.g. an individual, business, etc.).Thus, the communication functionality may include a textualcommunication and vocal communication. This communication functionalitymay be implemented and output using the vehicular assembly.

In one embodiment, the application program may receive updates utilizinga communication channel of the mobile device. For example, a user of themobile device may be prompted to receive any available updates to theapplication program. As another option, the updates may be receivedautomatically without user interaction.

As an option, the application program may be installed on the vehicularassembly utilizing the mobile device. For example, during a datasynchronization process, a user may be prompted to install theapplication program on the vehicular assembly.

In one embodiment, the application program may include a program formodifying characteristics of the vehicle assembly. For example, in oneembodiment, the characteristics of the vehicle assembly may includesounds associated with the vehicle assembly. In this case, the soundsmay include a voice used by the vehicle assembly to convey informationto a user, ring tones used by the vehicle assembly, chimes and chirpsused by the vehicle assembly, etc. In another embodiment, thecharacteristics of the vehicle assembly may include visual objectsassociated with the vehicle assembly. In this case, the visual objectsmay include screen savers, wall paper for displays, icons, text formats,fonts, display characteristics, etc.

It should be noted that the vehicular assembly may include astandardized application program interface for allowing access theretoby a plurality of diverse application program developers. In this way, aversatile interface may be provided such that any application on themobile device may be access and operated utilizing the vehicularassembly.

In addition to utilizing a communication channel of the mobile device toperform at least one vehicular assembly function, in another embodiment,the vehicular assembly may be utilized for navigating a network. FIG. 8Cshows a method 875 for navigating a network, in accordance with oneembodiment. As an option, the method 875 may be implemented in thecontext of the architecture and environment of FIGS. 1-8B. Of course,however, the method 875 may be carried out in any desired environment.The aforementioned definitions may apply during the present description.

As shown, an utterance is received utilizing a vehicular assembly. Seeoperation 877. Additionally, a bookmark is selected, based on theutterance. See operation 879. Further, Internet content associated withthe bookmark is retrieved. See operation 881.

In this case, a bookmark may include any pointer or link to a web pageor other Internet content. In one embodiment, may include an html linkto Internet content. As an option, the bookmarks may include pre-definedbookmarks. As another option, the bookmarks may be user configurable.

The Internet content may be any type of content accessible utilizing abookmark. Furthermore, the Internet content may be output utilizing thevehicular assembly. In one embodiment, the content may be converted fromspeech-to-text. For example, the content may include one of audio newscontent, audio weather content, audio traffic information, audio from auser, etc. In these cases, the content may be displayed on a screen ofthe vehicular assembly.

The Internet content may also include any digital media such asstreaming music, video, fictional, or non-fictional content. Forexample, the fictional content may include an online fictional book. Thenon-fictional content may include content such as news, weather, roadinformation, or any other non-fictional content.

In one embodiment, the content may be converted from text-to-speech. Forexample, the content may include any web pages including text that areaccessible using a bookmark. In these cases, the content may be outputto an audio system associated with the vehicular assembly.

In either case, the vehicular assembly may be capable of communicatingwith a mobile device. In this way, the bookmark may be received from themobile device for generating a voice tag to compare with the utterance.The Internet content may then be retrieved utilizing a communicationchannel of the mobile device.

In one embodiment, the mobile device may include a plurality ofbookmarks that are accessible utilizing the vehicular assembly. Forexample, the mobile device may include a group of bookmarks (e.g. afolder of bookmarks, etc.) for use with the vehicular assembly. As anoption, the bookmarks that are accessible utilizing the vehicularassembly may be user configurable. In this case, some bookmarks storedon the mobile device may be selected to be inaccessible from thevehicular assembly. In one embodiment, the bookmarks accessible to thevehicular assembly may be uploaded to the vehicular assembly and/ordisplayed to a user.

In one embodiment, functionality may be provided in conjunction with theInternet content. For example, the functionality may include navigationfunctionality such as GPS functionality, mapping functionality, etc. Asanother example, the functionality may include address lookup and/ortelephone number lookup functionality.

In one embodiment, the functionality may be provided by way of anon-line application. For example, the on-line application may include anavigational application. As another example, the online application mayinclude a database application. More information regarding onlineapplications may be found in provisional U.S. patent application Ser.No. 61/022,235, titled “Mobile System, Method, And Computer ProgramProduct For Executing An Online Application On A Mobile Device,” whichis incorporated herein by reference in its entirety.

As an option, the Internet content may be conditionally displayedutilizing the vehicular assembly, based on movement of a vehicle ofwhich the vehicular assembly is a component. For example, a navigationalapplication may be displayed when the vehicle is moving whereas a mediaplayer application and streaming digital contact is displayed when thevehicle in not in motion.

In one embodiment, images stored on a mobile device or in an onlinedatabase may be displayed utilizing the vehicular assembly. As anoption, one or more of the images may be utilized as wallpaper for adisplay of the vehicular assembly. As another option, the images may besequenced as a slide show.

In one embodiment, an online application accessed utilizing the mobiledevice may be utilized to create a slide show utilizing the storedimages. In this case, the online application may utilize streaming audioto create the slide show. Thus, images may be sequenced while music isbeing played utilizing the vehicular assembly.

As an option, a touch screen display associated with the vehicularassembly may be utilized to select or deselect images that aredisplayed. In this way, a user may manually sequence through the imagesand also configure a slide show for automatic sequencing.

It should be noted that, in some cases, authentication information maybe needed to access Internet content associated with a bookmark. Inthese cases, a user name and password may be automatically sent to aserver in conjunction with retrieving the Internet content. For example,a plug-in may be utilized to automatically send the user name andpassword. In this case, the plug-in may be a plug-in associated with aweb browser corresponding to a mobile device that is connected to thevehicular assembly.

FIG. 9A shows a method 900 for utilizing a communication channel of amobile device by a vehicular assembly, in accordance with anotherembodiment. As an option, the method 900 may be implemented in thecontext of the architecture and environment of FIGS. 1-8C. Of course,however, the method 900 may be carried out in any desired environment.The aforementioned definitions may apply during the present description.

As shown, it is determined whether a command utterance is received by avehicular assembly from a user. See operation 902. In this case, thecommand utterance may include a play command, a find command, a stopcommand, a start command, or any other command. In one embodiment, thecommand may include a command to access a bookmark.

If a command utterance is received from the user, a request for data isgenerated. See operation 904. Once the request for data is generated,the request is sent to a mobile device that is in communication with thevehicular assembly. See operation 906.

In one embodiment, the request may include a name of a bookmark. Inanother embodiment, the request may be utilized to determine a bookmarkto be utilized. For example, the request may include a key word that maybe utilized to determine a bookmark. In this case, the command utterancemay be parsed to determine a key word for selecting a bookmark.

Once the request is sent to the mobile device, data associated with therequest is retrieved using a communication channel of the mobile device.See operation 908. In one embodiment, the mobile device may utilize thebookmark to connect to a web page to retrieve Internet contentassociated with the request.

Once the data has been retrieved by the mobile device, the data is sentto the vehicular assembly. See operation 910. In this case, the data maybe sent to the vehicular assembly by the mobile device utilizing ahard-wire connection or a wireless connection between the mobile deviceand the vehicular assembly. Once the data is sent to the vehicularassembly, the data may be output to a user.

FIG. 9B shows a system 950 for utilizing a communication channel of amobile device by a vehicular assembly, in accordance with anotherembodiment. As an option, the system 950 may be implemented in thecontext of the architecture and environment of FIGS. 1-9A. Of course,however, the system 950 may be implemented in any desired environment.The aforementioned definitions may apply during the present description.

As shown, a mobile device may be in communication with a vehicularassembly. The mobile device may include a communication channel 952 forcommunicating with servers, online applications, and other devices.Furthermore, the mobile device may include a platform 954 capable ofproviding access to one or more application programs 956. In this case,the application programs 956 may be stored locally on the mobile device,on the vehicular assembly, or in a networked database.

Components of the vehicular assembly (e.g. a processor/memory, anavigational system, speakers, a microphone, etc.) may interface withthe mobile device through an API such that the vehicular assembly mayaccess application programs, software, data, and functionalitycorresponding to the mobile device.

In this way, any data and functionality associated with the mobiledevice may be accessed utilizing the vehicular assembly. In oneembodiment, contact information from a mobile device may be incorporatedinto a points-of-interest database of a vehicular assembly.

FIG. 10A shows a method 1000 for incorporating contacts from a mobiledevice into a points-of-interest database of a vehicular assembly, inaccordance with one embodiment. As an option, the method 1000 may beimplemented in the context of the architecture and environment of FIGS.1-9B. Of course, however, the method 1000 may be carried out in anydesired environment. The aforementioned definitions may apply during thepresent description.

As shown, a vehicular assembly is utilized to communicate with a mobiledevice. See operation 1002. Contacts data is received from the mobiledevice at the vehicular assembly. See operation 1004. Furthermore, thecontacts data is displayed utilizing the vehicular assembly. Seeoperation 1006.

In the context of the present description, contacts data refers to anyinformation corresponding to a contact or other identified entity. Forexample, in various embodiments, the contact data may include currentlocation information of a contact, previous location information of acontact, future location information of a contact, destinationinformation of a contact, travel speed information of a contact, anestimated time of arrival (ETA) of a contact, communication informationof a contact, and/or any other contact data corresponding to a contact.

In one embodiment, the contacts data may be received from the mobiledevice in response to an initial communication between the mobile deviceand the vehicular assembly. As an option, only a subset of the contactsdata may be received from the mobile device for generating the tags, toreduce a time required for initialization. In this case, the subset ofthe data may be selected based on a predetermined criteria, selected bya user, based on previous use of the mobile device or vehicularassembly, and/or based on whether the data was previously received.

In addition to displaying the contacts information utilizing thevehicular assembly, communication may be initiated with at least onecontact utilizing the vehicular assembly. The communication may includetextual communication or voice communication. In one embodiment, thecommunication with the at least one contact may be initiated byselecting the displayed contacts information for the at least onecontact. For example, the contacts information may be displayed using adisplay including a touch screen interface. A user may touch thedisplayed contacts information to initiate communication with a contact.

In another embodiment, the communication with the at least one contactmay be initiated utilizing an oral command. In this case, the oralcommand may include a command to call or text a contact. These commandsand the communication may be executed utilizing the mobile device and anassociated communication channel.

In one embodiment, the contacts data may be incorporated into apoint-of-interest database of the vehicular assembly. For example, thevehicular assembly may include a navigation system including a databasewith one or more points-of-interest. The contacts data may beincorporated into this point-of-interest database such that thenavigation system may utilize the contacts data.

As an option, a route may be determined between a current location of avehicle associated with the vehicular assembly and at least one contactrepresented by the point-of-interest database. This information andother information associated with at least one contact represented bythe point-of-interest database may be presented utilizing the vehicularassembly.

For example, the information displayed may include a permanent locationof the at least one contact, a current location of the at least onecontact, a picture of the at least one contact, a destination of the atleast one contact, an ETA to a destination, travel statistics of the atleast one contact, and any other information relating to the at leastone contact. It should be noted that the contacts data may includestatic and/or dynamic data.

In one embodiment, the contacts data may be periodically supplied to themobile device. In this case, the contacts data may be periodicallysupplied by one or more contacts and/or a third party service capable ofsupplying the contacts information. In another embodiment, the mobiledevice may periodically query one or more contacts or a third partyservice for the contacts information. In this way, the contactsinformation may be provided in real-time, near real-time, automatically,or manually.

For example, contacts information including GPS coordinates for a firstcontact may retrieved by the mobile device. The GPS coordinates may beutilized to track the first contact. In one embodiment, the firstcontact may be tracked and the tracking may be displayed utilizing thevehicular assembly. As an option, a picture of the first contact may bedisplayed as part of the tracking. To communicate with the firstcontact, a user may select the picture of the first contact by touchingthe picture on a touch screen display, for example.

In one embodiment, the vehicular assembly may be utilized for socialnetworking. FIG. 10B shows a method 1050 for social networking utilizinga vehicular assembly, in accordance with one embodiment. As an option,the method 1050 may be implemented in the context of the architectureand environment of FIGS. 1-10A. Of course, however, the method 1050 maybe carried out in any desired environment. The aforementioneddefinitions may apply during the present description.

As shown, a vehicular assembly is utilized to communicate with a mobiledevice. See operation 1052. Information about social contacts isreceived, utilizing the mobile device. See operation 1054. Further, theinformation about social contacts is displayed, utilizing the vehicularassembly. See operation 1056.

In the context of the present description, social contacts refer to anycontacts that are determined to be contacts associated with socialactivity. For example, a user may define a contact as a social contactas opposed to a business contact. In one embodiment, social contacts maybe any contact saved as a group or in a folder including primarilysocial contacts. As an option, a user may configure a contact to be asocial contact (e.g. by selecting a “social contact” select box, etc.).

As another option, a contact may be determined to be a social contactautomatically based on criteria for defining a social contact. Invarious embodiments, such criteria may include a frequency ofinteraction with the contact (e.g. a number of communication instances,etc.), a duration or average duration of interactions, a method ofcommunication (e.g. email, text messaging, instant messaging, telephoneor other voice communication, etc.), a formality of the communication(e.g. based on a spelling and/or grammar check, etc.), and/or variousother criteria.

Additionally, the information about the social contact may include anyinformation relating to a contact, a device used by the contact, alocation of the contact, a destination of a contact, movement or travelinformation and/or statistics of a contact, and/or any other informationassociated with the contact.

In one embodiment, the information may include a status of the socialcontacts. For example, the status may include at least one of availableand unavailable, where available indicates that the contact is availablefor communication and unavailable indicates that the client is notavailable for communication. In various embodiments, the status of thesocial contacts may be indicated by an icon, text, pictures, and variousother indicators.

In one embodiment, the information may include which of a plurality ofcontacts is in at least one location. For example, the at least onelocation may include a vehicle. Thus, the information may indicate whichcontacts are in the vehicle.

As an option, a location of the vehicle may be displayed on a map. Inthis case, the vehicle may be displayed as a vehicle icon. Additionally,the location of the vehicle on the map may be updated in real-time ornear real-time, utilizing location information received through thecommunication channel of the mobile device. As noted above, thisinformation may be provided manually or automatically.

Using the display of the vehicular assembly, the vehicle may bedisplayed on the map with identifiers identifying each of the pluralityof contacts. In various embodiments, the identifiers may includepictures, text (e.g. names, etc.), icons, and/or various otheridentifiers.

In one embodiment, the information of which contacts are in the vehiclemay be provided by mobile devices from each of the contacts. Forexample, a mobile device, such as a cell phone, may provide locationinformation (e.g. GPS coordinates, etc.) to a user. This locationinformation may be provided to the vehicular assembly and may be used bythe mobile device or the vehicular assembly to determine whether thecontact is located in the vehicle.

In another embodiment, a contact may use a vehicular assembly or amobile device associated with the contact to provide the informationindicating the location of the contact. For example, a display of avehicular assembly of the vehicle in which the contact is located mayprovide the contact with an interface for indicating that the contact isin the vehicle. Once the contact provides this location information, theinformation may be communicated to the mobile device of the user seekingthe location information.

In another embodiment, the information may include which of a pluralityof contacts is in at least one location, where the at least one locationincludes a point-of-interest. The point-of-interest may include anypoint-of-interest such as a restaurant, bar, club, park, or any otherpoint-of-interest.

As an option, the point-of-interest may be displayed on the map. In thiscase, an icon, picture, and/or text associated with at least one of thesocial contacts at the point-of-interest may also be displayed. Again,the location information of the at least one contact may be providedmanually or automatically by a mobile device of the contact, a vehicularassembly of the contact, or third party service capable of providingsuch information.

It should be noted that location information for each contact may beupdated on the map in real-time or near real-time. In variousembodiments, the updating may be configured by a user, a social contact,and/or a third party service. Accordingly, a picture or iconcorresponding to each social contact may change positions on thedisplayed map, based on an actual location of the social contact.

In one embodiment, a user may communicate with a social contact inresponse to a selection of the icon or other item representing thesocial contact on the map. Thus, upon selection of the icon, a user maybe given the option of voice communication or textual communication withthe social contact.

As an option, additional information corresponding to at least onesocial contact may be displayed, in response to selection of the icon orother item. For example, in various embodiments, the other informationmay include GPS coordinates, destination information, an ETA, a messagefrom the social contact, a number of the social contact, a nickname ofthe social contact, a past location of the social contact, a status ofthe social contact, a mood of the social contact, media being played bya social contact, media recommendations of the social contact, and/orvarious other information.

In another embodiment, instant communication options may be provided inresponse to selection of the icon or other item. For example, uponselection of the icon, a user may be presented with an option to updatethe contact associated with that icon with information such as anautomatically provided ETA (e.g. calculated by the vehicular assembly orthe mobile device, etc.), a status, predefined text messages, and otherinformation.

In still another embodiment, driving directions may be provided to alocation of the at least one social contact, in response to a selectionof the icon. For example, in response to selecting the icon, anavigation system associated with the vehicular assembly or the mobiledevice may calculate driving directions to the social contact. In thiscase, the navigation system may utilize GPS coordinates to calculate thedirections. The GPS coordinates may include coordinates associated witha mobile device of the social contact and/or a location of the socialcontact (e.g. coordinates of a vehicle, point-of-interest, etc.).

In one embodiment, at least one point-of-interest between a currentlocation and a location of at least one social contact may be displayed,in response to selection of the icon. For example, upon selection of theicon, a point-of-interest between a location of the user who selectedthe icon and the location of the social contact associated with the iconmay be determined and displayed. In this way, a meeting point may beestablished between the social contact and the user.

In one embodiment, the user may have the ability to select a type ofpoint-of-interest to be displayed. For example, the user may select thata restaurant, a gas station, a bar, or other point-of-interest is thepoint-of-interest to be displayed. As an option, all availablepoints-of-interest may be displayed.

In one embodiment, selecting the point-of-interest between the user andthe social contact may provide the social contact with selectedpoint-of-interest. For example, upon selecting a meeting point using adisplay of the vehicular assembly, the vehicular assembly maycommunicate the selection to the mobile device such that the mobiledevice may use the communication channel to provide a mobile device ofthe social contact with the selection. As an option, a displayassociated with a vehicular assembly of the social contact may thenautomatically display the selection.

Alternatively, the social contact may select a meeting point and theselection may be communicated to the mobile device of the user. Themobile device of the user may then communicate this selection to thevehicular assembly of the user such that a display is automaticallyupdated with the selection.

As an option, driving directions may be provided to thepoint-of-interest if requested. For example, the user may select thepoint-of-interest selected by the social contact (or any point ofinterest between the user and the social contact), and drivingdirections to the point-of-interest may be provided (e.g. based oncoordinates of a current user location and the coordinates of thepoint-of-interest, etc.).

FIG. 11 shows a method 1100 for social networking utilizing a vehicularassembly, in accordance with one embodiment. As an option, the method1100 may be implemented in the context of the architecture andenvironment of FIGS. 1-10B. Of course, however, the method 1100 may becarried out in any desired environment. Again, the aforementioneddefinitions may apply during the present description.

As shown, it is determined whether a vehicular assembly makes aconnection with a mobile device. See operation 1102. Once a connectionis made, contact information is retrieved from the mobile device. Seeoperation 1104.

In one embodiment, the contact information may include all contactinformation or all new contact information stored on the device. Inanother embodiment, the contact information may include only a subset ofcontact information that is determined to be retrieved from the mobiledevice. For example, the mobile device may include a folder indicatingcontacts to be retrieved.

Once the contact information is retrieved, the contact information isdisplayed utilizing the vehicular assembly. See operation 1106. As anoption, the contact information may be displayed as a list. As anotheroption, the contact information may be displayed on a map. As stillanother option, the contact information may be displayed utilizing adrop-down or pop-up list that is displayed by selecting an icon,picture, or text, associated with the contact.

It is then determined whether a user command is received to incorporatethe contacts into a points-of-interest database. See operation 1108. Inthis case, incorporating the contacts in the points-of-interest databasemay include utilizing the contact information to determine or display alocation of the contact. In one embodiment, incorporating the contactsinto the points-of-interest database may be performed automatically.

If it is determined to incorporate the contacts into the points-ofinterest database, the contacts are incorporated. See operation 1110. Itshould be noted that incorporating the contacts into thepoints-of-interest database may include listing contacts whose locationinformation is to be displayed and listing contacts whose locationinformation is to be updated.

Once the contacts are incorporated, the contacts may be treated asdynamic or static points-of-interest that may be utilized with anavigation system corresponding to the vehicular assembly. See operation1112. In this way, a location of the contacts may be monitored on adisplay of the vehicular assembly.

While using the contact information with the navigation system, it isdetermined whether a user request to initiate communication with acontact is received. See operation 1114. If such a request is received,communication with the contact is initiated using a communicationchannel of the mobile device. See operation 1116.

It should be noted that, location information for the contacts may beupdated dynamically. Thus, in parallel with communication andnavigational functionality, it is determined whether any update to acontact location is received. See operation 1118. If updated locationinformation is received, the contact location is updated in thepoints-of-interest database and/or on the display of the vehicularassembly. See operation 1120.

FIG. 12 shows an interface 1200 for adding contacts to be displayed on avehicular assembly, in accordance with one embodiment. As an option, theinterface 1200 may be implemented in the context of the architecture andenvironment of FIGS. 1-11. Of course, however, the interface 1200 may beimplemented in any desired environment. The aforementioned definitionsmay apply during the present description.

As shown, the interface 1200 may list a plurality of contacts. In thiscase, the interface 1200 may be displayed on a mobile device of a user,on a vehicular assembly display, and/or on any other suitable display.

In one embodiment, contacts of a user may be displayed using theinterface 1200 such that a user may select to add the contact to apoints-of-interest database. For example, the vehicular assembly mayretrieve a list of contacts from the mobile device and display thecontacts in a list on a display of the vehicular assembly. The user maythen select “Add” to add the contact to a points-of-interest database.

In another embodiment, contacts of a user may be displayed using theinterface 1200 such that a user may select to retrieve certain contactsor contact information using the vehicular assembly. For example, thevehicular assembly may retrieve a list of contacts from the mobiledevice and display the contacts in a list on a display of the vehicularassembly. The user may then select “Add” to retrieve the contactinformation.

As another option, the interface 1200 may allow a user to edit contactinformation by selecting an “Edit” button. For example, the user mayedit settings corresponding to location updates for the contact. Theuser may also edit any other information associated with the contact.

In one embodiment, the interface 1200 may be displayed using the mobiledevice such that a user may select which contacts to be retrieved by thevehicular assembly. Furthermore, the mobile device may be utilized toedit configuration settings associated with each contact.

Once the contacts to be incorporated into the points-of-interest database are selected, the navigation system of the vehicular assembly mayutilize contact information to display a location of the contacts. FIG.13 shows an interface 1300 for displaying a contact location, inaccordance with one embodiment. As an option, the interface 1300 may beimplemented in the context of the architecture and environment of FIGS.1-12. Of course, however, the interface 1300 may be implemented in anydesired environment. Again, the aforementioned definitions may applyduring the present description.

As shown, a vehicle icon 1302 and other icons 1304 corresponding topoints-of-interest may be displayed on a map using the interface 1300.Pictures 1306 or other indicators representing each contact selected tobe displayed may be provided and displayed on the map, indicating alocation of each contact. For example, one or more contacts are in avehicle, a vehicle icon may be shown along with indicators for eachcontact in the vehicle.

Upon selection of an indicator for the contacts, additional informationfor the selected contact may be displayed, such as a status, directionsto the contact, etc. Furthermore, upon selection of the indicator,communication options may be displayed. In this way, each contact is acustomized point-of-interest including various information relating tothat contact.

Furthermore, a user may easily initiate communication with the contactby selecting a communication option associated with an icon, picture, orother symbol corresponding to the contact. In one embodiment, thecommunication option may include an instant messaging option.

FIG. 14A shows a method 1400 for instant messaging utilizing a vehicularassembly, in accordance with one embodiment. As an option, the method1400 may be implemented in the context of the architecture andenvironment of FIGS. 1-13. Of course, however, the method 1400 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

As shown, a vehicular assembly is utilized to communicate with a mobiledevice. See operation 1402. Additionally, an instant message iscommunicated with a remote entity via the vehicular assembly, utilizingthe mobile device. See operation 1404.

In the context of the present description, a remote entity refers to anindividual, company, organization, or system capable of communicating,receiving, transmitting or generating an instant message. Furthermore,the instant message may include any type of instant message. Forexample, in one embodiment, the instant message may include a shortmessaging service message. In another embodiment, the instant messagemay include a multimedia messaging service message (e.g. images, audio,video, rich text, etc.).

As an option, the instant message may include text converted from speechreceived utilizing the vehicular assembly. As another option, theinstant message may include a voice message received utilizing thevehicular assembly. Additionally, the instant message may include apicture received utilizing the vehicular assembly. Still yet, theinstant message may include navigation information received utilizingthe vehicular assembly. In one embodiment, contact informationassociated with the instant message may be received from the mobiledevice.

In any of these cases, the instant message may be transmitted utilizinga communication channel of the mobile device (e.g. a cellular channel, abroadband channel, etc.). In one embodiment, a plurality of messages maybe received from the remote entity. For example, another subsequentinstant message may be received from the remote entity via the vehicularassembly, utilizing the mobile device. In this case, at least a portionof the instant message may be converted from text-to-speech. In oneembodiment, a sender identifier of the instant message may be convertedfrom text-to-speech. In another embodiment, a sender identifier of theinstant message may be displayed utilizing a display of the vehicularassembly.

FIG. 14B shows a method 1450 for communicating location-relatedinformation, in accordance with one embodiment. As an option, the method1450 may be implemented in the context of the architecture andenvironment of FIGS. 1-14A. Of course, however, the method 1450 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

As shown, a vehicular assembly is utilized to communicate with a mobiledevice. See operation 1452. Additionally, a location of a vehicleassociated with the vehicular assembly is identified, utilizing thevehicular assembly. See operation 1454. Furthermore, information basedon the location is generated. Still yet, the information is communicatedutilizing the mobile device. See operation 1456.

In various embodiments, the information may be generated utilizing thevehicular assembly or the mobile device. Additionally, as an option, theinformation may be communicated utilizing an instant messaging protocol.

In one embodiment, a destination for a user of a vehicle associated withthe vehicular assembly may be determined. In this case, the informationmay be generated based on the location and the destination. As anoption, the information may be automatically generated and automaticallytransmitted. For example, the information may be automaticallytransmitted on a periodic basis. In this case, the information may beautomatically transmitted on a periodic basis until a destination isreached.

The information may include a variety of information based on thelocation. For example, in various embodiments, the information mayinclude an estimated time of arrival, a map, a link for accessingadditional information via the Internet, a current location, an alertupon the arrival at a destination, and/or various other information.

In one embodiment, a recipient of the information may automatically beidentified based on a destination. In another embodiment, a recipient ofthe information may be identified utilizing a contact database of themobile device.

In some cases, a request for the information may be received and anacceptance from a user may be received. In these cases, the informationmay be generated and communicated, in response to response to thereceipt of the acceptance.

FIG. 14C shows a method 1475 for voice controlled attachments, inaccordance with one embodiment. As an option, the method 1475 may beimplemented in the context of the architecture and environment of FIGS.1-14B. Of course, however, the method 1475 may be carried out in anydesired environment. The aforementioned definitions may apply during thepresent description.

As shown, a vehicular assembly is utilized to communicate with a mobiledevice. See operation 1477. Additionally, a message is generated. Seeoperation 1479. Further, an utterance is received, utilizing thevehicular assembly. See operation 1481. Still yet, an attachment isattached to the message based on the utterance. See operation 1483.

In various embodiments, the message may include an e-mail, an instantmessage, a voice message, and/or any other type of message. In the casethat the message includes a voice message, the voice message may berecorded utilizing the vehicular assembly.

Additionally, the attachment may include various attachments such as apicture or navigation information, etc. In some cases, this navigationinformation may include a map. Furthermore, the navigation informationmay be generated utilizing a navigation system of the vehicularassembly.

In one embodiment, an utterance may specify a specific file to attach.As an option, the attachment may identify or include digital media. Inthis case, the digital media may include digital media being presentedwhen the message is generated.

The message may be transmitted utilizing a communication channel of themobile device. Additionally, a recipient of the message may beidentified utilizing contact information stored on the mobile device. Asan option, the receipt of the message may be automatically acknowledged.

FIG. 15 shows a method 1500 for voice controlled attachments and forcommunicating location-related information, in accordance with anotherembodiment. As an option, the method 1500 may be implemented in thecontext of the architecture and environment of FIGS. 1-14C. Of course,however, the method 1500 may be carried out in any desired environment.The aforementioned definitions may apply during the present description.

FIG. 16A shows a method 1600 for voice controlled attachments, inaccordance with another embodiment. As an option, the method 1600 may beimplemented in the context of the architecture and environment of FIGS.1-15. Of course, however, the method 1600 may be carried out in anydesired environment. The aforementioned definitions may apply during thepresent description.

FIG. 16B shows a method 1650 for communicating location-relatedinformation, in accordance with another embodiment. As an option, themethod 1650 may be implemented in the context of the architecture andenvironment of FIGS. 1-16A. Of course, however, the method 1650 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

FIG. 17 shows an interface 1700 for communicating and displayinglocation-related information, in accordance with another embodiment. Asan option, the interface 1700 may be implemented in the context of thearchitecture and environment of FIGS. 1-16B. Of course, however, theinterface 1700 may be implemented in any desired environment. Theaforementioned definitions may apply during the present description.

FIG. 18 shows a method 1800 for programmable mobile device controls, inaccordance with one embodiment. As an option, the method 1800 may beimplemented in the context of the architecture and environment of FIGS.1-17. Of course, however, the method 1800 may be carried out in anydesired environment. The aforementioned definitions may apply during thepresent description.

As shown, a vehicular assembly communicates with a mobile device. Seeoperation 1802. Additionally, an input is received from a user. Seeoperation 1804. Further, a control of a vehicular assembly that controlsat least one aspect of the mobile device is configured, based on theinput. See operation 1806.

The input may be received using an interface of the mobile device or thevehicular assembly. In one embodiment, the input may be receivedutilizing a user interface of the mobile device. In another embodiment,the input may be received utilizing a touch screen of the vehicularassembly. In yet another embodiment, the input may be received utilizinga microphone of the vehicular assembly.

The control may include any control of the vehicular assembly thatcontrols at least one aspect of the mobile device. For example, thecontrol may include a steering wheel control, a button, a touch screen,etc. Furthermore, the at least one aspect of the mobile device mayinclude a variety of aspects including a control of an applicationprogram resident on the mobile device. In this case, the applicationprogram may include a mail application, a contacts application, acalendar application, a network browser application, and/or any otherapplication.

Additionally, the at least aspect may be accessed by a single selectionof the control. In this case, the at least aspect may be accessed by aplurality of user actions utilizing a menu of the mobile device.

In one embodiment, a current configuration of the control may bedisplayed on a display of a vehicular assembly. In this case, thecurrent configuration may be displayed by displaying a plurality of thecontrols and an associated current aspect of the mobile device that isthereby controlled. In one embodiment, a plurality of options may bedisplayed with a current configuration for changing the associatedcurrent aspect of the mobile device that is controlled by the controls.

FIG. 19 shows a method 1900 for programmable mobile device controls, inaccordance with another embodiment. As an option, the method 1900 may beimplemented in the context of the architecture and environment of FIGS.1-18. Of course, however, the method 1900 may be carried out in anydesired environment. The aforementioned definitions may apply during thepresent description.

FIG. 20 shows a system 2000 for programmable mobile device controls, inaccordance with one embodiment. As an option, the system 2000 may beimplemented in the context of the architecture and environment of FIGS.1-19. Of course, however, the system 2000 may be implemented in anydesired environment. The aforementioned definitions may apply during thepresent description.

FIG. 21 shows a method 2100 for providing enhanced passenger displayfunctionality, in accordance with one embodiment. As an option, themethod 2100 may be implemented in the context of the architecture andenvironment of FIGS. 1-20. Of course, however, the method 2100 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

As shown, a passenger display in a vehicle is controlled. See operation2102. Additionally, navigation information is received from a navigationsystem of the vehicle. See operation 2104. Furthermore, the navigationinformation is displayed utilizing the passenger display. See operation2106.

In various embodiments, the passenger display may be positioned on arear face of a front seat of a vehicle, attached to a roof of thevehicle, and/or located in various other passenger accessible positions.Furthermore, the passenger display may be controlled utilizing differentdevices. For example, the passenger display may be controllable by acentral driver display. In this case, the navigation information may beselected utilizing the central driver display.

As an option, input may be received utilizing the passenger display. Inthis case, information may be displayed on the central driver display;based on the input. Thus, a passenger may recommend stopping pointsand/or preferences to a driver of a vehicle.

As an option, the navigation information may be selected utilizing thepassenger display. The navigation information may include variousinformation such as information on points-of-interest. In this case, thepoints-of-interest may include restaurants, locations that include arestroom, and various other information on points-of-interest.

In one embodiment, the points-of-interest may be filtered. For example,the points-of-interest may be filtered based on at least one ofpoint-of-interest type, distance from a current location, an estimatedtime of arrival from a current location, and a distance from a currentroute.

As an option, the navigation information may also include an estimatedtime of arrival. In this case, the estimated time of arrival may bebased on at least one of traffic conditions, current speed, and adistance from a destination.

FIG. 22 shows a method 2200 for providing enhanced passenger displayfunctionality, in accordance with another embodiment. As an option, themethod 2200 may be implemented in the context of the architecture andenvironment of FIGS. 1-21. Of course, however, the method 2200 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

FIG. 23 shows a system 2300 for providing enhanced passenger displayfunctionality, in accordance with one embodiment. As an option, thesystem 2300 may be implemented in the context of the architecture andenvironment of FIGS. 1-22. Of course, however, the system 2300 may beimplemented in any desired environment. The aforementioned definitionsmay apply during the present description.

FIG. 24 shows a method 2400 for community-based traffic conditioninformation, in accordance with one embodiment. As an option, the method2400 may be implemented in the context of the architecture andenvironment of FIGS. 1-23. Of course, however, the method 2400 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

As shown, a traffic condition of a vehicle is identified. See operation2402. Additionally, information associated with the traffic condition istransferred to a server over a network. See operation 2404. Furthermore,community-based traffic condition data is received over the network. Seeoperation 2406.

In one embodiment, the traffic condition may be identified based on aspeed of the vehicle. In another embodiment, the traffic condition maybe identified based on a progress of the vehicle along a predeterminedroute. In still another embodiment, the traffic condition may beidentified based on stop and go activity of the vehicle.

As an option, the information associated with the traffic condition maybe transferred and the community-based traffic condition data may bereceived via a communication channel of a mobile device in communicationwith a vehicular assembly associated with the vehicle. In oneembodiment, the community-based traffic condition data may beperiodically received. Furthermore, the community-based trafficcondition data may be based, at least in part, on information receivedfrom a plurality of vehicles (e.g. contacts vehicles, vehiclesassociated with an organization, etc.).

In another embodiment, the community-based traffic condition data mayinclude only a subset of community-based traffic condition data that isselected based on a route of the vehicle. In still another embodiment,the community-based traffic condition data may include only a subset ofcommunity-based traffic condition data that is selected based on atleast one of a current location, a direction, and a speed of thevehicle.

As another option, the community-based traffic condition data may bebased, at least in part, on information received from a traffic service.In one embodiment, the community-based traffic condition data mayinclude statistics. In this case, the statistics may include a number ofvehicles that is associated with the community-based traffic conditiondata. In another embodiment, the community-based traffic condition datamay include only a subset of community-based traffic condition data thatis selected based on a route of the vehicle.

It should be noted that the information may be automaticallytransferred. As an option, the information may be transferred inresponse to input by a user.

FIG. 25 shows a method 2500 for community-based traffic conditioninformation, in accordance with another embodiment. As an option, themethod 2500 may be implemented in the context of the architecture andenvironment of FIGS. 1-24. Of course, however, the method 2500 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

FIG. 26 shows a method 2600 for location based messaging, in accordancewith one embodiment. As an option, the method 2600 may be implemented inthe context of the architecture and environment of FIGS. 1-25. Ofcourse, however, the method 2600 may be carried out in any desiredenvironment. The aforementioned definitions may apply during the presentdescription.

As shown, a message to be communicated to at least one recipient isreceived. See operation 2602. Furthermore, the at least one recipient isselected from a plurality of recipient candidates, based on a currentlocation of the recipient candidates. See operation 2604. In variousembodiments, the message may include an instant message, an e-mail andany other type of message.

In one embodiment, the current location of the recipient candidates maybe determined utilizing a global positioning system carried by therecipient candidates. In this case, the current location of eachrecipient candidate may be received at a server, and the server mayselect the at least one recipient. As an option, the recipientcandidates may be identified utilizing a contact database.

In another embodiment, the at least one recipient may be furtherselected from the plurality of recipient candidates, based on a currentlocation of a sender of the message. In this case, the at least onerecipient may be selected from the plurality of recipient candidates, ifthe current location of the sender of the message is within apredetermined distance of the current location of the recipientcandidate. As another option, the at least one recipient may be selectedfrom the plurality of recipient candidates, if a destination of thesender of the message is within a predetermined distance of the currentlocation of the recipient candidate.

In one embodiment, the selected at least one recipient may be displayedon a display. In this case, the message may be sent to the at least onerecipient, in response to a selection thereof by a sender of themessage. It should be noted, that functionality associated with thepresent description may be carried out utilizing a vehicular assembly.For example, the vehicular assembly may include computer code toimplement such functionality which is a component of the vehicularassembly.

Additionally, the vehicular assembly may be operable to communicate witha mobile device. In this case, the current location may be received andthe message may be sent, utilizing a communication channel of the mobiledevice. Furthermore, the current location of the recipient candidatesmay be displayed via a display of the vehicular assembly. In anotherembodiment, the selecting of the at least one recipient from a pluralityof recipient candidates may be based on a destination of the recipientcandidates.

FIG. 27 shows a method 2700 for location based messaging, in accordancewith another embodiment. As an option, the method 2700 may beimplemented in the context of the architecture and environment of FIGS.1-26. Of course, however, the method 2700 may be carried out in anydesired environment. The aforementioned definitions may apply during thepresent description.

FIG. 28 shows an interface 2800 for location based messaging, inaccordance with one embodiment. As an option, the interface 2800 may beimplemented in the context of the architecture and environment of FIGS.1-27. Of course, however, the interface 2800 may be implemented in anydesired environment. The aforementioned definitions may apply during thepresent description.

FIG. 29 shows a method 2900 for generating navigation information basedon calendar information, in accordance with one embodiment. As anoption, the method 2900 may be implemented in the context of thearchitecture and environment of FIGS. 1-28. Of course, however, themethod 2900 may be carried out in any desired environment. Theaforementioned definitions may apply during the present description.

As shown, calendar information is received utilizing a vehicularassembly. See operation 2902. Additionally, driving directions aregenerated using the calendar information, utilizing the vehicularassembly. See operation 2904. In one embodiment, the calendarinformation may be used to look-up a destination using a contactsdatabase.

As an option, the calendar information may be received from a mobiledevice in communication with the vehicular assembly. Furthermore, thecalendar information may be displayed utilizing the vehicular assembly.

As another option, an estimated time of arrival may also be generated.In this case, the estimated time of arrival may be based on at least oneof traffic conditions, current speed, and a distance from a destination.Additionally, the estimated time of arrival may be compared with a timeincluded with the calendar information. In this case, a status may bedisplayed utilizing the vehicular assembly based on the comparison. Thestatus may indicate a difference between the estimated time of arrivaland the time included with the calendar information.

In another embodiment, a status may be communicated to a recipient basedon the comparison. Furthermore, a user to may be prompted to communicatea status to a recipient based on the comparison of the estimated time ofarrival and the time included with the calendar information.

In various embodiments, the status may be communicated utilizing aninstant message, an e-mail, voice message, and using other communicationmechanisms. The recipient may be identified utilizing the calendarinformation.

As an option, the status may be communicated utilizing a mobile devicein communication with the vehicular assembly. For example, the statusmay be communicated utilizing a communication channel of the mobiledevice.

FIG. 30 shows a method 3000 for generating navigation information basedon calendar information, in accordance with another embodiment. As anoption, the method 3000 may be implemented in the context of thearchitecture and environment of FIGS. 1-29. Of course, however, themethod 3000 may be carried out in any desired environment. Theaforementioned definitions may apply during the present description.

FIG. 31 shows an interface 3100 for generating navigation informationbased on calendar information, in accordance with one embodiment. As anoption, the interface 3100 may be implemented in the context of thearchitecture and environment of FIGS. 1-30. Of course, however, theinterface 3100 may be implemented in any desired environment. Theaforementioned definitions may apply during the present description.

FIG. 32 shows a method 3200 for creating a map in association with anaddress, in accordance with one embodiment. As an option, the method3200 may be implemented in the context of the architecture andenvironment of FIGS. 1-31. Of course, however, the method 3200 may becarried out in any desired environment. The aforementioned definitionsmay apply during the present description.

As shown, a selection of an address is received. See operation 3202.Additionally, a selection of indicia in association with the selectionof the address is received. See operation 3204. As an option, theindicia may be displayed in response to a right-click operation.Further, navigation information is generated in response to theselection. See operation 3206.

In one embodiment, the address may be a component of a web page and theicon may be available during use of a network browser. In anotherembodiment, the address may be a component of an electronic message andthe icon may be available during use of an electronic message browser.In still another embodiment, the address may be a component of a contactand the icon may be available during use of contact databaseapplication.

As an option, the navigation information may include a map including anidentifier of a location of the address. Furthermore, a current locationmay be identified (e.g. utilizing computer code associated with anavigation system, etc.). In this case, the current location may bepre-selected. Additionally, the current location may be determinedutilizing a global positioning system.

The generated navigation information may include a variety ofinformation such as driving directions from the current location to theaddress. In one embodiment, the driving directions may include a map.Furthermore, the driving directions may include a list of directions.

In one embodiment, the navigation information may be generated utilizinga navigation system of a vehicular assembly. In another embodiment, thenavigation information may be generated utilizing a navigation system ofa mobile device. As an option, the navigation information may begenerated by automatically sending the address and a current location toa server, and receiving the navigation information in response. Asanother option, the navigation information may be generated byautomatically sending the address to a server, and receiving thenavigation information in response.

FIG. 33 shows an interface 3300 for creating a map in association withan address, in accordance with one embodiment. As an option, theinterface 3300 may be implemented in the context of the architecture andenvironment of FIGS. 1-32. Of course, however, the interface 3300 may beimplemented in any desired environment. The aforementioned definitionsmay apply during the present description.

FIG. 34 shows a method 3400 for selectively retrieving data from amobile device in communication with a vehicular assembly, in accordancewith one embodiment. As an option, the method 3400 may be implemented inthe context of the architecture and environment of FIGS. 1-33. Ofcourse, however, the method 3400 may be carried out in any desiredenvironment. The aforementioned definitions may apply during the presentdescription.

As shown, a mobile device in communication with a vehicular assembly ofa vehicle is identified. See operation 3402. Additionally, a datastructure corresponding to the identified mobile device is selected, thedata structure being stored in memory associated with an on-boardcomputer system of the vehicle. See operation 3404. Furthermore, data isselectively retrieved from the mobile device, based on the selected datastructure. See operation 3406. Still yet, tags associated with the dataare generated. See operation 3408.

In one embodiment, the data structure may be one of a plurality of datastructures stored in the memory. In this case, each of the plurality ofdata structures may correspond to different mobile devices, where eachof the different mobile devices may correspond to different users. As anoption; the plurality of data structures may include settinginformation. Further, the setting information may include the data to beselectively retrieved from the mobile device.

In one embodiment, the setting information may be automaticallyconfigured. In another embodiment, the setting information may beautomatically configured based on a previous history of use. In stillanother embodiment, the setting information may be manually configured.Additionally, the setting information may include a variety ofinformation including user preferences.

FIG. 35 shows a system 3500 for accessing one or more onlineapplications, in accordance with one embodiment. As shown, a pluralityof networks 3502 is provided. In the context of the present networkarchitecture 3500, the networks 3502 may each take any form including,but not limited to a local area network (LAN), a wireless network, awide area network (WAN) such as the Internet, peer-to-peer network, etc.

Coupled to the networks 3502 are servers 3504, including one or moreonline software applications, which are capable of communicating overthe networks 3502. Also coupled to the networks 3502 and the servers3504 is a plurality of clients 3506. Such servers 3504 and/or clients3506 may each include a desktop computer, lap-top computer, hand-heldcomputer, mobile phone, personal digital assistant (PDA), peripheral(e.g. printer, etc.), any component of a computer, and/or any other typeof logic. In order to facilitate communication among the networks 3502,at least one gateway is optionally coupled therebetween.

FIG. 36 shows a representative environment 3600 that may be associatedwith the servers 3504 and/or clients 3506 of FIG. 35, in accordance withone embodiment. As shown, the environment 3600 may include softwareapplication logic 3602, advertisement logic 3604, and third partydeveloper logic 3606. Furthermore, storage 3608 may also be providedsuch that documents may be stored. In some cases, these documents mayinclude documents associated with online applications. Additionally,other storage may be provided for various other data such as userspecific information 3610.

Various embodiments set forth herein may be implemented utilizinghardware, software, or any desired combination thereof. For that matter,any type of logic may be utilized which is capable of implementing thevarious functionality set forth herein.

FIG. 37 shows a method 3700 for linking a plurality of tags with adocument, in accordance with one embodiment. As an option, the presentmethod 3700 may be implemented in the context of the functionality andarchitecture of FIGS. 35-36. Of course, however, the method 3700 may becarried out in any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, a document generated utilizing an online document editor isidentified. See operation 3702. In the context of the presentdescription, an online document editor refers to any online editor usedto generate or modify documents. For example, in various embodiments,the online document editor may include, but is not limited to, WebOfficeDocument Manager, Zoho Writer, Google Docs, and/or any other documenteditor that meets the above definition.

Further, the document generated may include any document capable ofbeing generated with an editor. For example, in various embodiments, thedocument may include a may include, but is not limited to, a textdocument, any word processor document (e.g. a Microsoft Word document,Microsoft Works document, etc.), a spreadsheet document (e.g. a .xlsdocument, etc.), a presentation document (e.g. a .ppt document, etc.), aportable document format (PDF) file, a picture, a drawing, and/or anyother document that meets the above definition.

Additionally, a plurality of tags are determined. See operation 3704. Inthe context of the present description, a tag refers to any keyword,term, or phrase associated with or assigned to a piece of information(e.g. a picture, a geographic map, a blog entry, a video clip, or anydocument, etc.).

Furthermore, the tags are linked with the document. See operation 3706.As an option, the tag may be utilized to described the document andenable keyword-based classification and searches of informationassociated with such document.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 38 shows a method 3800 for linking a plurality of tags with adocument, in accordance with another embodiment. As an option, thepresent method 3800 may be implemented in the context of thefunctionality and architecture of FIGS. 35-37. Of course, however, themethod 3800 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, it is determined whether online documents have been created.See operation 3802. If one or more documents have been created, aninterface is displayed for manually collecting tags. See operation 3804.As an option, the interface may be displayed upon saving the document.As another option, the interface may be displayed by selecting a tagcreation icon or option in a menu or a toolbar.

Furthermore, the interface may include various functionality formanually collecting the tags. For example, the interface may includetext edit boxes for manually inserting tags. The interface may alsoinclude a drop-down menu or other list of potential

Additionally, the interface may provide suggested tags. For example, thelist or drop-down menu may include a list of suggested tags. As anotheroption, upon invocation of the interface, suggested tags may behighlighted in the created document. In this case, the interface mayinclude text from the selected document illustrating the highlightedwords or phrases to potentially be used as tags. Further, the documentitself may include the highlighted words or phrases. In this case, auser may have the option to select the highlighted words or phrases(e.g. by clicking or scrolling over) utilizing a mouse.

In one embodiment, the tags may be manually selected from the documentwithout by selecting any of the text in the document, not necessarilyrecommended tags. Further, the interface may provide a list of words inthe created document with an associated number indicating the frequencyof use in the document. These words may be ordered in a list from mostto least use, for example. Additionally, the list may only include acertain number of the most used words in the document.

As another option, the tags may be recommended based on previouslyexisting tags. For example, if a plurality of existing tags include aspecific word or term, but other tags associated with those particulartags are dissimilar, a tag may be recommended that exploits thisdissimilarity. As a specific example, if two existing documents have atag that includes “apple” and another tag that includes “computer,” butthe newly created document has multiple occunences of the term “apple”and few occurrences of the term “computer” in the document, anotherkeyword may be recommended based on the number of times found in thedocument (e.g. “fruit”) to distinguish the documents.

Once the tags have been collected, the tags are correlated with adocument/index. See operation 3806. In this way, the tags may beindexed. For example, the tags may then be associated or linked with/tothe document and an index location such that the tag may be utilized toaccess the indexed location of the document. In this case, an index mayrefer to any location of a data structure. Furthermore, the index mayrefer to any location in a database. In this way, the tags may beutilized for searching the documents.

Once the tags are conelated with a document/index, it is determinedwhether the document is to be edited. See operation 3808. For example,the document may be selected to be edited by the user. If the documentis to be edited, the interface is displayed for manually collectingtags. See operation 3810. As an option, the interface may be displayedwhen the edited document is to be saved (e.g. when the user selects asave document option or icon, etc.).

Once the tags have been collected, the tags are correlated with thedocument/index. See operation 3812. It should be noted, that suggestedtags may again be optionally displayed using the interface. Furthermore,the user may have the option to utilize previously generated tagsinstead of generating new or additional tags.

In addition to manual selection, in another embodiment, the tags mayalso be automatically selected. FIG. 39 shows a method 3900 forsuggesting tags or automatically selecting tags, in accordance withanother embodiment. As an option, the present method 3900 may beimplemented in the context of the functionality and architecture ofFIGS. 35-38. Of course, however, the method 3900 may be carried out inany desired environment. It should also be noted that the aforementioneddefinitions may apply during the present description.

As shown, words in a document are parsed. See operation 3902. In thecontext of the present description, parsing refers to transforming textinto a word or data structure. For example, in various embodiments,parsing may include, but is not limited to, extracting words from text,extracting phrases from text, extracting symbols from text, lexicalfunctional grammar parsing, head-driven phrase structure grammarparsing, shallow parsing, dependency grammar parsing, etc.

Once the words in the document have been parsed, repeated words areidentified. See operation 3904. In one embodiment, identifying therepeated words may include implementing a statistical analysis on therepeated words to determine a frequency of use and/or a relevanceanalysis (i.e. the likelihood the word is relevant in the context used).As an option, the identification of repeated words may include onlyidentifying nouns and/or verbs that are repeated.

Furthermore, unique nouns and or verbs may also be identified. Seeoperation 3906. In this case, the unique nouns or verbs may beidentified from the list of repeated words and/or non-repeated words inthe document. In one embodiment, the unique nouns or verbs may refer toany noun or verb that is not statistically likely to appear in adocument (e.g. less than 60% likely, 50% likely, 40% likely, etc.).Additionally, the unique nouns or verbs may be determined based on thefrequency of use in the document.

As shown further, tags may be suggested based on the identification. Seeoperation 3908. In this way, nouns, verbs, and/or repeated words may bedetermined to be tags.

In various embodiments, the tags may be suggested as a list, dialog box,input text box, highlighted text, etc. Furthermore, the tags may beautomatically selected and applied. For example, an interface mayprovide a user an option to have tags automatically selected. In thiscase, tags that would otherwise be suggested may be utilized as tagsautomatically. Thus, the tags may be determined automatically by parsingwords in the document.

FIG. 40 shows an interface 4000 for linking a plurality of tags with adocument, in accordance with one embodiment. As an option, the interface4000 may be implemented in the context of the details of FIGS. 35-39. Ofcourse, however, the interface 4000 may be implemented in any desiredenvironment. It should also be noted that the aforementioned definitionsmay apply during the present description.

As shown, the interface 4000 may include a navigator bar 4002 (e.g. anexplorer bar) including back, forward, stop, reload, etc. functionallyfor navigating online. Further, a toolbar 4004 may be provided includingvarious functionality for accessing/managing documents. For example, thetoolbar 4004 may include a file option to access functionalityassociated with a document (e.g. save, save as, send, properties, etc.).Furthermore, the toolbar 4004 may include options for switching betweenonline applications (e.g. word processors, spread sheet generationtools, PDF generators, etc.). Still yet, the toolbar may include variousother functions such as view options, format options, tool options,table options, window options, help options, and various iconsassociated with various functionality.

Additionally, the interface 4000 includes a window for viewingdocuments. In operation, a user may generate a document or a pluralityof documents using the interface 4000. Tags may then be determinedmanually or automatically, correlating to the document.

As an option, the tags may be manually entered upon saving the document.For example, upon save the document a user interface 4006 may bedisplayed, allowing a user to manually enter a tag or a plurality ortags into a text box 4008. In one embodiment, the interface 4006 mayinclude a folder directory 4010. Furthermore, the interface 4006 mayinclude a list of suggested tags 4012. Once the tags have been selected(manually and/or automatically), the tags are indexed.

Thus, the tags may be utilized for searching the documents. As anoption, the interface 4000 may allow the user to search a plurality ofdocuments using the tags. In this way, the user may examine tagsrelating to information being sought, and the tag may be used to findappropriate documents.

It should be noted that the interface 4000 may represent any networkbrowser. Thus, by using the interface 4000 multiple online applicationsmay be accessed utilizing the tags. Furthermore, in various embodiments,the documents may be created using many different online applications.As an option, these online applications may employ functionality ofvarious other online applications.

FIG. 41 shows a method 4100 for applying a function of an onlineapplication to a file generated by a second online application, inaccordance with one embodiment. As an option, the present method 4100may be implemented in the context of the functionality and architectureof FIGS. 35-40. Of course, however, the method 4100 may be carried outin any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, a file generated utilizing a first online application isidentified. See operation 4102. In the context of the presentdescription, an online application refers to any software applicationthat is utilized over a network. For example, in various embodiments,the online applications may include, but are not limited to, online wordprocessors, online spread sheet generators, online presentation toolsand generators, online project management software, online accountingsoftware, and/or any other online applications that meet the abovedefinition.

Additionally, a function of a second online application to be applied tothe file is identified. See operation 4104. In the context of thepresent description, a function refers to function associated with anapplication. For example, in various embodiments, the function mayinclude, but is not limited to, a format conversion, a commentingfunction, a publishing function, a spell check function, a track changesfunction, a text formatting function, an object modifying function, adrawing function, a table function, a macro function, and/or any otherfunction that meets the above definition.

Further, the function of the second online application is applied to thefile. See operation 4106. The function may be applied in a variety ofways. For example, the function of the second online application may beapplied to the file utilizing code stored at a server hosting the firstonline application. As another example, the function of the secondonline application may be applied to the file utilizing code stored at aserver hosting the second online application. In this case, the functionmay be applied by passing a URL associated with the file to secondonline application.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 42 shows a system 4200 for applying a function of an onlineapplication to a file generated by a second online application, inaccordance with one embodiment. As an option, the system 4200 may beimplemented in the context of the functionality and architecture ofFIGS. 35-41. Of course, however, the system 4200 may be implemented inany desired environment. It should also be noted that the aforementioneddefinitions may apply during the present description.

As shown, a server including a first online application 4202, a serverincluding a second online application 4204, and a client 4206 areprovided. In operation, a file 4208 generated utilizing the first onlineapplication 4202 is identified. Additionally, a function of the secondonline application 4204 is identified to be applied to the file 4208.Further, the function of the second online application 4206 is appliedto the file 4208.

In one case, the function of the second online application 4206 may beunavailable utilizing the first online application. In this way,functionality of multiple applications may be shared betweenapplications.

As shown further, the client 4206 has access to both the first andsecond online applications 4202 and 4204. For example, the first onlineapplication 4202 and the second online application 4204 may beaccessible via a network browser. In this way, the function of thesecond online application 4204 may be selected utilizing the networkbrowser.

For example, the function of the second online application 4204 may beselected utilizing a toolbar of the network browser. In this case, thetoolbar may include a plugin. In the context of the present description,a plugin refers to any computer program that interacts with a hostapplication (e.g. the network browser, etc.). In one embodiment, theplugin may provide a function using an icon and/or dedicated text.

Although not illustrated, in one embodiment, the first the second onlineapplication 4202 and 4204 may be included on one server. In anotherembodiment, the server including the first online application 4202 andthe server including the second online application 4204 may be incommunication. In this way, applying the function of the secondapplication 4204 to the file 4208 may not necessarily involvecommunicating data via the client 4206, as shown in FIG. 42.

FIG. 43 shows a method 4300 for applying a function of an onlineapplication to a file generated by a second online application, inaccordance with one embodiment. As an option, the present method 4300may be implemented in the context of the functionality and architectureof FIGS. 35-42. Of course, however, the method 4300 may be carried outin any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, a file is identified using a first online application. Seeoperation 4302. As an option, identifying the file may include selectingthe file via a user interface. As another option, the file may beselected from a network browser. In this case, the network browser mayinclude a drop-down list of potential files. In one embodiment, thenetwork browser may include a bookmark to the file.

Once the file is selected using the first online application, it isdetermined whether a function from a second online application functionis selected to be applied to the file. See operation 4304. As an option,the function may be selected using a toolbar including functionality ofboth the first and second application. In one case, this toolbar may bedisplayed upon accessing two or more applications. For example, uponaccessing a first online application, a toolbar including functionalityof the first application may be displayed. Then, after accessing asecond online application, the toolbar may be updated to includefunctionality of the second online application.

In another embodiment, a toolbar may be displayed includingfunctionality of all available online applications. In this case, theavailable functionality may include only online application functionsavailable to a user or compatible with the opened file and/orapplication.

If it is determined that a function from the second online applicationis selected to be applied to the file, the function is applied to thefile. See operation 4306. The function may be applied to the file inmany ways. For example, in one embodiment, code including the functionmay be transferred to the server including the first application suchthat the first application may apply the function to the file.

In another embodiment, the file may be transferred to the serverincluding the second online application and the function may be appliedto the file. In still another embodiment, the server including the fileand the first online application may include a list of various functionsand associated code, capable of being applied to the file. In this case,such functionality may or may not be included as part of the firstapplication. As an option, all capable functionality of the first onlineapplication and/or the second online application may be available via anetwork browser.

FIG. 44 shows a network browser 4400 for applying a function of anonline application to a file generated by a second online application,in accordance with one embodiment. As an option, the network browser4400 may be implemented in the context of the details of FIGS. 35-43. Ofcourse, however, the network browser 4400 may be implemented in anydesired environment. It should also be noted that the aforementioneddefinitions may apply during the present description.

As shown, the network browser 4400 may include a navigator bar 4402(e.g. an explorer bar) including back, forward, stop, reload, etc.functionally for navigating a network. Further, a toolbar 4404 may beprovided including various functionality for accessing/managing filesand/or applications. For example, the toolbar 4404 may include functionsof a plurality of applications.

In one embodiment, the toolbar 4404 may only include functions of openapplications. In another embodiment, the toolbar 4404 may only includefunctions that may be applied to an open file or application in use. Instill another embodiment, the toolbar may include all functionsavailable to a user. As an option, the functions available to a user mayinclude only functions associated with applications to which the userhas usage rights.

In addition to various application functions, in other embodiments, thetoolbar 4404 may include a file option to access functionalityassociated with a file (e.g. save, save as, send, properties, etc.).Furthermore, the toolbar 4404 may include options for switching betweenonline applications (e.g. word processors, spread sheet generationtools, PDF generators, etc.). Still yet, the toolbar may include variousother functions such as view options, format options, tool options,table options, window options, help options, and various iconsassociated with various functionality.

Additionally, the network browser 4400 or the toolbar 4404 may include atab bar 1006 for easy toggling between applications and files. As anoption, the tab bar 4406 may allow the same file to be viewed in thecontext of a first online application and a second online application.In this way, a file opened by the first online application under a firsttab may be viewed in the context of a second online application under asecond tab, allowing a function of the second online application to beapplied to the file when viewed under the second tab and/or the firsttab.

Furthermore, results of applying the function may be displayed in aseparate window. For example, after applying the function to the file,the results may be displayed under a tab separate from the first and/orsecond online application, or a separate window 4408 of the networkbrowser 4400 or a separate network browser (not shown).

It should be noted that, the toolbar 4404 may display functions of anindividual online application, or a plurality of different applications.In some cases, the different online applications may be applicationslocated on separate servers.

FIG. 45 shows a method 4500 for accommodating different onlineapplications, in accordance with one embodiment. As an option, thepresent method 4500 may be implemented in the context of thefunctionality and architecture of FIGS. 35-44. Of course, however, themethod 4500 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, an online application currently visited by a network browseris identified. See operation 4502. Additionally, at least one of aplurality of network browser toolbars is automatically selected based onthe online application currently visited by the network browser. Seeoperation 4504. Furthermore, the at least one network browser toolbar isdisplayed. See operation 4506.

In the context of the present description, a network browser toolbarrefers to any row, column, or block of buttons, icons, or linked wordsthat, when clicked, activate certain functions of an application. Forexample, in various embodiments, the toolbar may include save functions,spell check functions, text formatting functions, file formattingfunctions, search functions, drawing functions, and/or any otherfunctions associated with an application.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 46 shows a method 4600 for accommodating different onlineapplications, in accordance with one embodiment. As an option, thepresent method 4600 may be implemented in the context of thefunctionality and architecture of FIGS. 35-45. Of course, however, themethod 4600 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, a URL is identified for a first online application. Seeoperation 4602. In this case, the URL may be identified upon accessingthe first application and/or by opening a file associated with the firstapplication. For example, a user may access the first online applicationusing a network browser. In this way, the online application may beidentified by monitoring URLs entered into the network browser.

Further, a list of toolbars is examined to find a toolbar associatedwith the URL or the first application are examined. See operation 4604.For example, a list including a plurality of toolbars associated withvarious online applications may be stored in a database. Using theidentified URL and/or other information about the first onlineapplication, the list of toolbars may be examined to determine whetheran appropriate toolbar is present for the first online application.

Once the URL has been identified, it is determined whether there is anappropriate toolbar present. See operation 4606. In one embodiment, theURLs entered in the network browser may be compared against a list ofpredetermined URLs associated with online applications for which anassociated toolbar is stored on a client on which the network browser isinstalled.

If there is appropriate toolbar present, a toolbar is automaticallyexecuted and displayed for the first online application. See operation4608. Thus, upon a match being identified based on the comparison of theURLs, a corresponding one of the toolbars is executed without userintervention.

It is then determined whether a window associated with the first onlineapplication is closed or a different tab on the network browser isselected. See operation 4610. If the window is closed or another networkbrowser tab is selected, the toolbar corresponding to the firstapplication is closed or hidden. See operation 4612. Thus, the networkbrowser toolbar may be removed from an interface of the network browserupon identification of a window in which an associated onlineapplication being closed.

In one embodiment, multiple tabs on a network browser may be opensimultaneously, where more than one tab corresponds to the firstapplication. In this case, the toolbar may remain displayed for all tabsor windows associated with the first application. Furthermore, in thecase that a second application is being utilized in one of the tabs orwindows, and the second tab utilizes the same or similar toolbarfunctionality as the first application, the toolbar may also remaindisplayed for the second application.

FIG. 47 shows a network browser plugin 4700 for accommodating differentonline applications, in accordance with one embodiment. As an option,the network browser plugin 4700 may be implemented in the context of thedetails of FIGS. 35-46. Of course, however, the network browser plugin4700 may be implemented in any desired environment. It should also benoted that the aforementioned definitions may apply during the presentdescription.

As shown, the network browser plugin 4700 may include variousinformation for accessing a first application. For example, the networkbrowser plugin 4700 may include a user name, user login information, anonline application URL, user preferences, etc. In one embodiment, thenetwork browser plugin 4700 may be stored on a client computer fromwhich the URL of online applications are accessed.

For example, a user may subscribe or access an online application and beprompted to download the network browser plugin 4700 from the locationof the online application to the computer or device of the user. Theuser may then be prompted to fill out all relevant information. In thisway, the network browser plugin 4700 may be utilized to access one ormore online applications without the need to enter login informationevery time the application is accessed. In one embodiment, the networkbrowser plugin 4700 may include information associated with a pluralityof online applications. In this case, the URL may be utilized as alook-up for all of the information utilized by the online application toallow the user access.

FIG. 48 shows a network browser 4800 for accommodating different onlineapplications, in accordance with one embodiment. As an option, thenetwork browser 4800 may be implemented in the context of the details ofFIGS. 35-47. Of course, however, the network browser 4800 may beimplemented in any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, the network browser 4800 may include a navigator bar 4802(e.g. an explorer bar) including back, forward, stop, reload, URL entry,etc. functionally for navigating a network. Further, a toolbar 4804 maybe provided including various functionality for accessing/managing filesand/or applications. For example, the toolbar 4804 may include functionsfor a first online application.

In addition to various functions of the first application, in otherembodiments, the toolbar 4804 may include a file option to accessfunctionality associated with a file (e.g. save, save as, send,properties, etc.). Furthermore, the toolbar 4804 may include options forswitching between online applications (e.g. word processors, spreadsheet generation tools, PDF generators, etc.). Still yet, the toolbarmay include various other functions such as view options, formatoptions, tool options, table options, window options, help options, andvarious icons associated with various functionality.

Additionally, the network browser 4800 or the toolbar 4804 may include atab bar for easy toggling between applications and files. As an option,the tab bar may allow the same file to be viewed in the context of afirst online application and a second online application. In this way, afile opened by the first online application under a first tab may beviewed in the context of a second online application under a second tab,allowing a function of the second online application to be applied tothe file when viewed under the second tab and/or the first tab.

In operation, an online application currently visited by the networkbrowser 4800 may be identified using the URL. Additionally, at least oneof a plurality of network browser toolbars may be selected based on theonline application currently visited by the network browser. As anoption, the toolbar 4804 may be capable of being manually selectedutilizing a menu. In this case, the menu may include a plurality oftoolbars associated with various URLs or online applications, where thetoolbars may include different functionality.

For example, a first one of the toolbars may be adapted for applying afirst set of functions to a file generated utilizing a first onlineapplication, and a second one of the toolbars is adapted for applying asecond set of functions to a file generated utilizing a second onlineapplication. Once the toolbar 4804 is selected, the toolbar 4804 may bedisplayed utilizing the network browser 4800.

As an option, log-in information utilized for the online applicationsmay be stored on a computer on which the network browser 4800 isinstalled. In this way, the login information may be utilized to log-into the online application currently visited by the network browser 4800.Thus, the user may enter the URL of the online application into thenetwork browser 4800 and access the application without entering logininformation every time.

In one embodiment, the user may use bookmarks to access the onlineapplications. In another embodiment, the user may click on a tag toaccess the online application. In still another embodiment, the user mayaccess the online application by clicking an icon on a desktop.Additionally, the user may access the online application by clicking onan item illustrated in a pictorial diagram of a file structure.

It should be noted that the toolbar 4804 may be displayed independently(i.e. only a single network browser toolbar is displayed at a time), orwith multiple other toolbars (e.g. other online application toolbars,search engine toolbars, email toolbars, etc.). In one embodiment, thenetwork browser toolbar 4804 may be conditionally displayed based on anumber of network browser toolbars already displayed. For example, iftwo toolbars are already being displayed, the network browser toolbar4804 may not be displayed.

In another embodiment, a position of the network browser toolbar 4804may depend on a number of network browser toolbars already displayed. Asan option, if multiple toolbars are already displayed, the networkbrowser toolbar 4804 may be displayed in a position in the networkbrowser 4800 away from the other toolbars being displayed. For example,if multiple toolbars are being displayed at the top of the networkbrowser 4800 the network browser toolbar 4804 may be displayed at thebottom of the network browser 4800.

In still another embodiment, a size of the network browser toolbar 4804may depend on a number of network browser toolbars already displayed.For example, if a plurality of toolbars are already displayed, thenetwork browser toolbar 4804 may be reduced in size (e.g. font, area,etc.). As another option, icons or buttons normally displayed on thenetwork browser toolbar 4804 may be omitted in the case that limitedspace is available due to other toolbars being present.

In yet another embodiment, an orientation of the network browser toolbar4804 may depend on a number of network browser toolbars alreadydisplayed. For example, if one or more toolbars are being displayed in ahorizontal orientation or row across the topside of the network browser4800, the network browser toolbar 4804 may be displayed in a verticalorientation, as a column along a side of the network browser 4800. As anoption, the network browser toolbar may be oriented vertically if one ormore browser toolbars are already displayed.

In some cases, the toolbar 4804 or another toolbar displayed on thenetwork browser 4800 may include functions for attaching filesassociated with the online applications to emails or other messages. Inone embodiment, these attachments may be stored in a central locationassociated with an online application from which the attachment wasgenerated.

FIG. 49 shows a method 4900 for storing attachments of an electronicmessage in a central location associated with an online application fromwhich the attachment was generated, in accordance with one embodiment.As an option, the present method 4900 may be implemented in the contextof the functionality and architecture of FIGS. 35-48. Of course,however, the method 4900 may be carried out in any desired environment.It should also be noted that the aforementioned definitions may applyduring the present description.

As shown, a file associated with an electronic message is identified,utilizing an electronic message application. See operation 4902. In thecontext of the present description, an electronic message applicationrefers to any application capable of identifying an electronic message.For example, in various embodiments, the electronic message applicationmay include, but is not limited to, an email application (e.g. MicrosoftOutlook, a web-based email application, etc.), a text messengerapplication, an instant messenger application, and/or any otherelectronic messenger application that meets the above definition. Invarious embodiments, the electronic message may include an email, a textmessage, an instant message, and any other electronic message.

Additionally as shown, an online application associated with the file isdetermined. See operation 4904. In this case, the online application maybe an online application that generated the file, an online applicationthat is capable of opening or viewing the file, an online applicationthat is capable of modifying the file, etc.

Further, the file is stored in one of a plurality of network locations,based on the determined online application. See operation 4906. Thenetwork location may be any location capable of storing files. Forexample, in various embodiments, the network locations may include aserver or a networked database. In this case, the network locations maybe locations allocated to an individual user, a group of users, acompany, etc.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 50 shows a method 5000 for storing attachments of an electronicmessage in a central location associated with an online application fromwhich the attachment was generated, in accordance with one embodiment.As an option, the present method 5000 may be implemented in the contextof the functionality and architecture of FIGS. 35-49. Of course,however, the method 5000 may be carried out in any desired environment.It should also be noted that the aforementioned definitions may applyduring the present description.

As shown, an email from a first user, including an attachment, isreceived by a second user. See operation 5002. In this case, theattachment may include any file generated by any application. In oneembodiment, the attachment may be virtual attachment. For example, theattachment may include a link corresponding to a file stored on aserver.

Once the email is received, it is determined whether the attachment isto be opened, saved, and/or edited. See operation 5004. For example, thesecond user may select the attachment (e.g. using a mouse, etc.) and begiven the option to open, save, edit, forward, etc. the attachment. Thisoption may be presented in the form of a window, a drop-down menu, etc.

If it is determined that the attachment has been selected to be opened,saved, and/or edited, an online application associated with theattachment and corresponding user login information for the second useris identified. See operation 5006. The online application associatedwith the attachment may be determine in a variety of ways.

In one embodiment, the online application may be determined to beassociated with the file, based on a header of the file. For example, aheader of the file may indicate an application capable of opening,editing, or saving the file. As another option, the online applicationmay be determined to be associated with the file, based on an extensionof the file. For example, if the extension includes a “.txt” extension,it may be determined that an online text editor is associated with thefile. In another case, a “.pdf” extension may indicate that a PDF vieweror editor is associated with the file.

In this way, the online application associated with the file may bedetermined automatically. In another embodiment, the online applicationassociated with the file may be determined manually. For example, a usermay have the option to select from a list of online applications.

In this case, the list may include all online applications capable ofopening, editing, or saving the file. As an option, the list may includeonline applications for which the user has permission to use. As anotheroption, the user may be given the option to have an appropriateapplication selected automatically.

In one embodiment, a network browser may be utilized to select theappropriate application. In this case, the network browser may bedisplayed upon selecting to open, save, or modify the file. As anoption, the network browser may display a plurality of tabscorresponding to each online application capable of opening, editing, orsaving the file.

In addition to determining an online application associated with theattachment, corresponding user login information is also determined. Inone embodiment, the login information may be stored on a device on whichthe electronic message application is installed. In this case, thedevice may be any device capable of storing login information. Forexample, in various embodiments, the device may include a mobile device(e.g. a phone, PDA, laptop, etc.), a computer, or any other device thatmeets the above definition.

As an option, the login information may be included as a network browserplugin. In this case, the login information may be automaticallyaccessed by the online application. In one embodiment, the log-ininformation may be utilized to login to the online application, inresponse to determining the online application is associated with thefile. Thus, upon automatically or manually selecting the onlineapplication, the login information may be automatically obtained andutilized to access the application.

Once the online application has been determined and the logininformation of the second user identified, the file is open, saved, oredited (depending on the command), using space in the online applicationallocated to the second user. See operation 5008. For example, the filemay be automatically transferred from a space at a network locationassociated with the first user to a space at a network locationassociated with the second user, such that the second user may accessthe file using the online application in a private or secure place, notaccessible to the first user.

As another option, data included in the attachment may be used toreconstruct the file in a space on the network allocated to the seconduser. In this way, once the online application is determined, a programor function associated with the online application may use data in theattachment to regenerate the file. This data may be communicated eithervia a device of the second user or directly from the space allocated tothe first user.

As still another option, the attachment may be saved directly from thedevice of the second user to the network space allocated to the seconduser. In these ways, the file (attachment) may be modified/accessed bythe second user on a network location using an online application. Inanother embodiment, the file may be stored in a common network spacesuch that both the first and the second user may access the file. Inthis way, a working document may be maintained between a plurality ofusers.

As an option, the network location may be associated with a URLcorresponding to the online application. For example, a server may hostan online application in addition to providing space for file storage ora workspace. As another option, the network location of the user spacefor file storage may be separate from a network location of the onlineapplication.

FIG. 51 shows a system 5100 for storing attachments of an electronicmessage in a central location associated with an online application fromwhich the attachment was generated, in accordance with one embodiment.As an option, the system 5100 may be implemented in the context of thedetails of FIGS. 35-50. Of course, however, the system 5100 may beimplemented in any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, a plurality of online application are located one or morenetwork locations 5102. As shown further, a device 5104 of a first userhas access to at least one of the network locations 5102. Additionally,a device 5106 of a second user has access to at least one of the networklocations 5102.

In use, the first user and/or the second user may each have access toallocated network space on a database or server at the network location5102. The users may access online applications associated with thenetwork locations, given the users have proper permission which may beobtained using appropriate login information. The users may access theseonline applications to create, modify, manage, and store files locatedat the network locations.

In one embodiment, the first and the second user may each have access toa separate network space such that files of the two users are isolatedfrom other users. In another embodiment, a shared or common space mayalso be utilized. In still another embodiment, the file may be stored ina location only accessible to a recipient of the electronic message.

In one case, the first user may desire to send a file to the seconduser. As an option, the first user may configure an email and send thefile as an attachment. As another option, the first user may send a linkto the file in an email.

When the second user receives the email with the attachment, the seconduser may choose to open or save the attached file. When the user selectsone of these options, an online application for facilitating suchoperations is determined. Additionally, the file is stored in one of thenetwork locations 5102, based on the determined online application. Forexample, as shown the file generated by the first user using the firstonline application may be associated with the first online applicationby the device 5106 of the second user. Thus, the file may be saved in anetwork location associated with the first online application.

In one embodiment, the device 5106 of the second user may be used todetermine the appropriate online application and the store the file. Inthis case, the device 5106 maybe any device capable of performing thesefunctions (e.g. a stationary device, a mobile device, etc.). As anoption, the file may be saved by selecting the electronic message andfurther selecting a save menu option.

In one embodiment, a request may be received to open the attached file.In this case, the online application associated with the file may bedetermined in response to the request. Once the online application isdetermined and user login information is verified, the file may beopened using the online application. In one embodiment, this may includeopening the file utilizing a network browser window.

FIG. 52 shows an interface 5200 for an electronic message applicationfor identifying a file associated with an electronic message, inaccordance with one embodiment. As an option, the interface 5200 may beimplemented in the context of the details of FIGS. 35-51. Of course,however, the interface 5200 may be implemented in any desiredenvironment. It should also be noted that the aforementioned definitionsmay apply during the present description.

As shown, a menu 5202 may allow a user to select a plurality of optionswhen a message has been received with an attachment including a file. Inthis case, the file may or may not have being generated using an onlineapplication. For example, the menu may include options to store the fileto a network space allocated to the user, edit, remove, or copy thefile. In one embodiment, the user may have the option to share the file.

Once the user makes a selection, the file may be stored on a networkspace which includes a plurality of other files. As an option, the usermay have the ability to view all of these files using a singleinterface. This may allow the user to view a file structure or tagsassociated with all of the user's files stored on the network location.

FIG. 53 shows a method 5300 for displaying a single interface thatincludes a plurality of files, in accordance with one embodiment. As anoption, the present method 5300 may be implemented in the context of thefunctionality and architecture of FIGS. 35-52. Of course, however, themethod 5300 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, a plurality of files are identified, each associated withdiverse file types corresponding to different online applications. Seeoperation 5302. In various embodiments, the file types may include, butare not limited to, a word processor file type, a text editor file type,a PDF file type, a drawing file type, a spreadsheet file type, apresentation file type, and/or any other file type corresponding to anonline application.

Further, a single interface is displayed that includes the files. Seeoperation 5304. As an option, the interface may be displayed using anetwork browser. As another option, the interface may be displayed onthe device of a user. In this case, the device may include a mobiledevice (e.g. a phone, PDA, laptop, etc.), a computer, or any otherdevice capable of displaying a network browser.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 54 shows a method 5400 for displaying a single interface thatincludes a plurality of files, in accordance with another embodiment. Asan option, the present method 5400 may be implemented in the context ofthe functionality and architecture of FIGS. 35-53. Of course, however,the method 5400 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, a global login is received. See operation 5402. Once theglobal login is received, a file directory of stored files is displayed.See operation 5404. This file directory may be displayed in a variety ofways using a single interface.

For example, the interface may be displayed utilizing a network browserand or a network browser plug-in. In this case, identifiers associatedwith the files may be stored on a device on which the network browser isinstalled. In one embodiment, the file identifies may include tags, asdescribed above.

In another embodiment, the identifiers associated with the files may bestored on a server. In this case, the server may be a server associatedwith the single interface. This server may also be associated with oneor more online applications. The identifiers associated may be displayedin various ways. For example, the identifiers associated with the filesmay be displayed utilizing HTML. In another embodiment, the identifiersassociated with the files may be displayed utilizing a JAVA script,icons, etc.

As an option, a network browser plugin may include the global logininformation. In this way, the global login information may beautomatically obtained when accessing the single interface through anetwork browser associated with the network plugin. In this case, thenetwork browser, plugin, and login information may be stored on a deviceof a user.

As an option, the log-in information may be capable of being enteredwhen registering an associated one of the online applications inassociation with the network browser. For example, a user may access anonline application for a first time using a network browser and enterregistration information. As part of the registration process the usermay enter login information which may saved on a device of the user.Thus, this information may be utilized each time the user accesses theinterface online. As an option, the user may choose to enter logininformation each time the user accesses the single interface online(e.g. for security purposes, etc.)

Using the single interface, a user may view a plurality of filesgenerated using various applications, with some of the applicationsbeing online applications. In some cases, each of the onlineapplications may have different log-in information associated therewith.In these cases, the log-in information may be stored in and associatedwith a network browser or a network browser plugin. Furthermore, thelog-in information may be utilized to access the interface, the files,and/or identifiers associated with the files.

With further reference to FIG. 54, once the files are displayed usingthe single online interface, it is determined whether a file isselected. See operation 5406. In this case, a file being selected mayinclude selecting the file directly via a network browser displaying thesingle interface, of by selecting a tag associated with the file.

If a file is selected (e.g. to be accessed, saved, etc.), logininformation for an online application associated with that file isidentified. See operation 5408. For example, user may select a file toopen that is associated with an online word processor application. Userlogin information would then be identified for the online application,either automatically (e.g. using information stored on the user device,etc.) or manually, by prompting the user to enter login information.

Once the login information has been determined, the selected file isretrieved using the corresponding login information. See operation 5410.In this case, the selected file may be retrieved from a network locationof the online application associated with the file, a network locationassociated with the single online interface, a network locationassociated with a user space (e.g. individual, shared, work, etc.), andor any other network location associated with the file.

FIG. 55 shows a data structure 5500 of global login information for asingle interface that includes a plurality of files associated with aplurality of different online applications, in accordance with oneembodiment. As an option, the data structure 5500 may be implemented inthe context of the functionality and architecture of FIGS. 35-54. Ofcourse, however, the data structure 5500 may be implemented in anydesired environment. It should also be noted that the aforementioneddefinitions may apply during the present description.

As shown, global login information 5502 may include login informationfor a plurality of different online applications 5504. In use, a usermay access an interface for displaying a plurality of files eachassociated with diverse file types corresponding to different onlineapplications. Upon accessing the interface, or files displayed using theinterface, the user may be prompted for global login information. Asanother option, global login information may be obtained automaticallyfrom information a device of the user or a server associated with thesingle interface, etc.

In one embodiment, the global login information 5500 may include a username and password for accessing the single interface. Once the globallogin information is obtained, online application login information maybe accessed and obtained automatically to allow the user to access allfiles displayed in the interface and all corresponding onlineapplications, without entering login information for each onlineapplication.

Thus, the user may use one global login to the single interface toaccess a plurality of online applications. It should be noted that thelogin information for the plurality of online applications may bedifferent for some or all of the applications. However, the global logininformation may allow access to all online application logininformation.

This may be accomplished in a variety of ways. For example, the logininformation for the online applications may be stored on the device ofthe user, a server associated with the single interface, a networklocation associated with the users, etc. Upon entering the global logininformation, the login information for the online applicationsassociated with the user may be retrieved. In various embodiments, thismay be facilitated utilizing a network browser, a network browserplugin, a JAVA script, etc.

FIG. 56 shows a file structure 5600 shown in a single interface thatincludes a plurality of files associated with a plurality of differentonline applications, in accordance with one embodiment. As an option,the file structure 5600 may be implemented in the context of thefunctionality and architecture of FIGS. 35-55. Of course, however, thefile structure 5600 may be implemented in any desired environment. Itshould also be noted that the aforementioned definitions may applyduring the present description.

As shown, a single interface may include a plurality of folders fororganizing a plurality of files associated with various onlineapplications. Although, the single interface may display a standard filestructure with directories, folders, sub folders, and files located,appearing to be located at a common network location, the folders,files, etc. may be located on a plurality of different servers and/ornetwork locations.

For example, the files may be stored at different servers eachassociated with a different online application. However, the singleinterface may have the ability to show files and folders as appearing ina single folder or subset of folders. In other words, the networklocation of various files may be transparent to the user, where thesingle interface only shows groupings of files in folders/directories(e.g. using meta data, etc.).

In this way, a virtual desktop and file structure is presented to theuser using the single interface. As an option, the files may also bestored on a device on which the interface is displayed. For example, auser may chose to save a copy of the files on a device such that theuser may work locally with the file.

In this case, the files stored on the device and the files stored on theserver may be synchronized. For example, the files on the device and thefiles stored on the server may be synchronized upon saving the file tothe device. As another option, the files may be synchronizedperiodically, based on a established time (e.g. every 5, 10, 15 minutes,etc.). In this case, synchronizing the files stored on the device andthe files stored on the server refers to maintaining common copies ofthe files stored on the device and the files stored on the server.

FIG. 57 shows a network browser 5700 for displaying a single interface5702 that includes a plurality of files, in accordance with oneembodiment. As an option, the network browser 5700 may be implemented inthe context of the details of FIGS. 35-56. Of course, however, thenetwork browser 5700 may be implemented in any desired environment. Itshould also be noted that the aforementioned definitions may applyduring the present description.

As shown, the single interface 5702 displays a plurality of filesassociated with different online applications. It should be noted thatany folder displayed may include files associated with various onlineapplications located at various network locations/servers. Furthermore,each of these online applications may require unique user logininformation. As noted above, one global login may be utilized to satisfyall login requirements, in accordance with one embodiment.

In addition to the illustrated functionality, the network browser 5700and/or the interface 5702 may include functionality for searching forfiles/folders associated with the file structure illustrated in theinterface 5700. In this way, a search may be conducted with respect tothe files, utilizing the interface. In one embodiment, the files may beindexed to facilitate the search with respect to the files.

For example, in one embodiment, tags may be utilized to index the files.In another embodiment, the files may be indexed by modificationtime/date, alphabetically, by size, network location, file type, contenttype, and any other suitable criteria. As an option, the searching mayinclude searching files associated with the interface on networklocations and/or the device of the user.

FIG. 58 shows a method 5800 for utilizing a network browser as adesktop, in accordance with one embodiment. As an option, the presentmethod 5800 may be implemented in the context of the functionality andarchitecture of FIGS. 35-57. Of course, however, the method 5800 may becarried out in any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, a plurality of URLs in association with a network browser arestored, the URLs each associated with different online applications. Seeoperation 5802. Additionally, a plurality of identifiers in associationwith the network browser are displayed, each identifier associated witha different online applications. See operation 5804.

In the context of the present description, an identifier refers to anycharacter or number, series of characters or numbers, word, phrase, orobject used for identification. For example, in various embodiments, theidentifier may include, but is not limited to, icons, key words,pictures, links, and/or any other identifier that meets the abovedefinition.

Further, a selection of at least one of the identifiers is displayed.See operation 5806. Still yet, one of the online applications isaccessed, in response to the selection of at least one of theidentifiers. See operation 5808.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 59 shows a method 5900 for utilizing a network browser as adesktop, in accordance with another embodiment. As an option, thepresent method 5900 may be implemented in the context of thefunctionality and architecture of FIGS. 35-58. Of course, however, themethod 5900 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, a network browser is executed. See operation 5902. Forexample, the network browser may be opened by a user on a user device.Once the network browser is executed, it is determined whether an onlineapplication menu is to be displayed. See operation 5904. For example, inone embodiment, the user may select an option to display onlineapplications. In another embodiment, the online application menu may bedisplayed automatically. In this case, an online application menu refersto a menu or list including available online applications.

If it is determined that the online application menu is to be displayed,the menu is displayed. See operation 5906. In various embodiments, themenu may be displayed as a list, window, toolbar, tabbed screens, groupof identifiers, etc.

It is then determined whether an online application has been selected.See operation 5908. If an online application has been selected, anetwork browser window and/or browser window tab is opened with theonline application. See operation 5910.

In one embodiment, this may include accessing user login information forthe online application. Additionally, upon displaying the networkbrowser in operation 5902, a user may also be prompted for global logininformation, which allows access to the online application menu.

This global login information may also be utilized to automaticallyobtain login information for the online applications automatically suchthat one global login allows the user access to all available onlineapplications without requiring the user to enter login information foreach of the applications. This information may be stored on a device ofthe user, a server which includes the online application menu, and/oranother network location. As shown further, it may also be determinedwhether the menu has been closed or remained open for the selection ofother online applications. See operation 5912.

FIG. 60 shows a network browser 6000 for using as a desktop, inaccordance with another embodiment. As an option, the network browser6000 may be implemented in the context of the functionality andarchitecture of FIGS. 35-59. Of course, however, network browser 6000may be implemented in any desired environment. It should also be notedthat the aforementioned definitions may apply during the presentdescription.

As shown, upon executing the network browser 6000 to be used as adesktop, a user may be prompted to supply registration information 6002for online applications that may be utilized in conjunction with thedesktop environment. In this way, the user may configure and personalizean online desktop environment. Upon registration, entering the onlineapplication login information, and the URL associated with the onlineapplication, an identifier may be identified corresponding to the onlineapplication.

In one embodiment, the identifier may be selected by the user. Inanother embodiment, the identifier may automatically be selected (e.g.by the online application, a provider of the online desktop, etc.).Furthermore, in one case, the user may have the option to link ordisplay an identifier associated with the online application. Forexample, the user may have the option to add a bookmark 6004 including alink to the online application. In another embodiment, the user may havethe option to add the identifier to a desktop image. In this way, theuser may be presented with a configurable online desktop includingidentifiers corresponding to various online applications, either shownon the desktop, or provided in a menu or list format.

FIG. 61 shows a network browser 6100 for using as a desktop, inaccordance with another embodiment. As an option, the network browser6100 may be implemented in the context of the functionality andarchitecture of FIGS. 35-60. Of course, however, network browser 6100may be implemented in any desired environment. It should also be notedthat the aforementioned definitions may apply during the presentdescription.

In operation, a plurality of URLs in association with the networkbrowser 6100 are stored, the URLs each associated with different onlineapplications. In one embodiment, the URLs may include online applicationURLs. In this case, a plurality of bookmark URLs in association with thenetwork browser may be stored, the bookmark URLs each associated withdifferent web pages of interest.

Further, a plurality of identifiers 6102 in association with the networkbrowser 6100 are displayed, each identifier associated with a differentonline applications. Using the identifiers 6102 one of the onlineapplications may be accessed, in response to a selection of at least oneof the identifiers 6102.

As shown, the identifiers 6102 may be displayed utilizing an explorerbar 6104 to a side of a network browser window 6106 in which HTMLcontent is displayed. In another embodiment, the identifiers may bedisplayed utilizing a tool bar 6108 above the network browser window6106 in which HTML content is displayed.

As an option, the identifiers 6102 may be accessible via at least onenetwork browser menu. In this way, the identifiers 6102 may beaccessible when the network browser menu is selected.

As noted above, accessing online applications and/or informationassociated with the online applications may include entering orobtaining user login information. In one embodiment, each of the URLsmay have login information associated therewith. In this case, thelog-in information may be stored in and/or associated with the networkbrowser 6100 and/or a device displaying the network browser 6100.

In this way, the log-in information may be utilized to access the onlineapplication, in response to the selection of at least one of theidentifiers 6102. As noted above, in one embodiment, the log-ininformation may be capable of being entered when registering anassociated one of the online applications in association with thenetwork browser.

As an option, the online applications may be opened in a separate newbrowser tab, in response to the selection of at least one of theidentifiers 6102. For example, multiple tabs may appear across the topon the window 6106, each tab corresponding to a different onlineapplication. In another embodiment, the online applications may beopened in a separate new browser window, in response to the selection ofat least one of the identifiers 6102. In this case, the new browserwindow may be included as a window within the network browser window6106 or outside the network browser window 6106.

In one embodiment, the identifiers 6102 may be displayed as computericons, where computer icons refer to any pictogram. As an option, theidentifiers 6102 may be user configurable. For example, the appearanceof the identifiers may be configurable. Additionally, a location ofdisplay of the identifies may be configurable. For example, a user mayhave the ability to move the identifiers to various locations in thewindow 6106.

Furthermore, the user may have the option to add/remove identifiers.Still yet, the configuration of the online desktop may be saved andstored on a user device and/or a network location. For example, an imageon the configuration may be saved on a server hosting the onlinedesktop. This may be accomplished by storing various data/metadataassociated with the configuration.

In various embodiments, the network browser 6100 may include variousother functionality. For example, in one embodiment, the network browser6100 may display advertisements associated in conjunction withdisplaying online applications.

FIG. 62 shows a method 6200 of advertising in conjunction with onlineapplications, in accordance with one embodiment. As an option, thepresent method 6200 may be implemented in the context of thefunctionality and architecture of FIGS. 35-61. Of course, however, themethod 6200 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, a request to access a file associated with an onlineapplication is received. See operation 6202. Additionally, at least oneprofile associated with the file is identified. See operation 6204.

In the context of the present description, a profile refers to anyinformation about an object. For example, in various embodiments, theprofile may include, but is not limited to, a user profile of a user whoinitiated the request to access the file, a file profile associated withthe file, a combination of a user and file profile, and/or any otherprofile that meets the above definition. In one case, the file profilemay a function of a plurality of tags associated with the file. Forexample, tags associated with the file may include key words that may beattributed to a profile.

Further, an advertisement is presented in conjunction with the access ofthe file. See operation 6206. In the context of the present description,the term advertisement may refer to a survey, questionnaire, promotionalcontent, product/service information, and/or anything that is designedto attract attention. In one embodiment, the advertisement may include adigital advertisement.

Further, the advertisement may be presented in a variety of ways. Invarious embodiments, the advertisement may be presented on a computer,television, PDA, mobile phone, and/or any other mobile or stationarydevice capable of presenting advertisements. In such embodiments, theadvertisement may be presented using web pages, television programs,movies, on-demand programming, audible media, and/or any other mediacapable of presenting advertisements. Of course, the foregoing examplesare set forth for illustrative purposes only and should not be construedas limiting in any manner.

FIG. 63 shows a method 6300 of advertising in conjunction with onlineapplications, in accordance with one embodiment. As an option, thepresent method 6300 may be implemented in the context of thefunctionality and architecture of FIGS. 35-62. Of course, however, themethod 6300 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, it is determined whether a request to access a file isreceived. See operation 6302. If a request to access the file isreceived, a group profile is identified. See operation 6304. In thiscase, the group profile may include the profile of a user groupassociated with the file. For example, the file may be attributable to agroup of engineers in a specific area of engineering. Thus, the groupprofile may be associated with the specific area of engineering.

In another case, the group profile may include a profile of a group offiles associated with the user or the particular file being accessed. Inthis case, file tags, file types, and a number of files may contributeto the group profile.

Once a group profile is identified, a profile of a user accessing thefile is identified. See operation 6306. For example, a profile of theuser may have been determined when the user registered for an onlineapplication associated with the file. In this case, the user may haveinputted preference information or the information may have beendetermined automatically based on user selections during theregistration. Furthermore, the user may have inputted preferenceinformation or had preference information derived automatically afterregistration. Such preference information may have been derived based oninternet browsing of the user, searches completed by the user, filesgenerated by the user, file tags selected by the user, etc.

Once the profiles are identified, an advertisement is selected, based onthe profiles, and then displayed. See operations 6308 and 6310. Forexample, the advertisement may be displayed in a window associated witha network browser corresponding to an online application. In anotherembodiment, the advertisement may be sent to a mobile device of theuser. In still another embodiment, the advertisement information may beprovided to an advertisement agency such that the agency may facilitatethe advertising (e.g. via a network browser, on demand television,etc.). In this way, directed advertising may be implemented inconjunction with utilizing online applications.

FIG. 64 shows a network browser 6400 for viewing advertisements inconjunction with files associated with online applications, inaccordance with one embodiment. As an option, the network browser 6400may be implemented in the context of the functionality and architectureof FIGS. 35-63. Of course, however, the method 6400 may be carried outin any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

In operation, a request to access a file associated with an onlineapplication may be received by the network browser 6400. Additionally,at least one profile associated with the file may be identified. Asmentioned above, in one embodiment, the profile may include a fileprofile associated with the file, where the file profile is a functionof a plurality of tags associated with the file.

In this case, the tags may be manually entered or automaticallydetermined. For example, the tags may be determined automatically byparsing words in the document. In another case, the tags may be manuallyentered using an interface including a folder directory. In oneembodiment, the tags may be determined for a plurality of the files. theprofile includes a group profile of a group of users who store aplurality of files to a network location.

As an option, the profile may include profile of a group of users whostore a plurality of files to a network location. In this case, theprofile may include a combination of a user profile and a group profile.In one case, the group profile may be a function of a plurality of tagsassociated with each of a plurality of the files.

Once the profile has been determined, an advertisement 6402 may bepresented in conjunction the file, using the network browser 6400. Inthis case the advertisement may correspond to the profile (e.g. of theuser, group, file, aggregate of multiple profiles, etc.). In addition topotentially displaying the advertisement, the network browser 6400 maydisplay various other items. For example, in one embodiment, the networkbrowser 6400 may include a search interface for performing a search inaddition to a window illustrating search results.

FIG. 65 shows a method 6500 for performing a search in conjunction withuse of an online application, in accordance with one embodiment. As anoption, the present method 6500 may be implemented in the context of thefunctionality and architecture of FIGS. 35-64. Of course, however, themethod 6500 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

In operation, a document editing interface is displayed for editing adocument. See operation 6502. Additionally, at least one term of thedocument is identified. See operation 6504.

In the context of the present description, a term refers to anycharacter or number, or sequence of characters or numbers. For example,in various embodiments, term may include, but is not limited to, a keyword, a phrase, a date, an amount, and/or any other term that meets theabove definition.

Further, a search interface is displayed. See operation 6506. Still yet,a search is performed utilizing the search interface, based on the atleast one term. See operation 6508.

FIG. 66 shows an interface 6600 for performing a search in conjunctionwith use of an online application, in accordance with one embodiment. Asan option, the interface 6600 may be implemented in the context of thefunctionality and architecture of FIGS. 35-65. Of course, however, theinterface 6600 may be implemented in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

In operation, a document editing interface 6602 is displayed for editinga document. Additionally, at least one term of the document isidentified. Further, a search interface 6604 is displayed. Still yet, asearch is performed utilizing the search interface 6604, based on the atleast one term. In various embodiments, may include a word processordocument, a spreadsheet document, and/or a presentation document.

In one embodiment, the at least one term may be identifiedautomatically. For example, the term may be identified by parsing wordsin the document. In this case, the parsing may include parsing nounsand/or verbs in the document. In one embodiment, the term may beidentified by a frequency of use. In another embodiment, the term may beidentified based on the same criteria used to automatically identify atag for a document, as described above.

As an option, the at least one term may be identified manually. In thiscase, the term may be identified manually by highlighting the at leastone term. In another embodiment, the term may be identified by typingthe term in an interface search bar.

As an option, the search may be performed by performing a right clickoperation. As another option, a search term may be automaticallysuggested. In this case, a plurality of possible terms may be presentedin a list. Thus, at least one of the terms in the list may be selectedand searched. Further, this may be accomplished in conjunction with amanual or automatic search.

In one embodiment, the term may include includes a plurality of tags. Inthis case the tags may be determined automatically by parsing words inthe document. In various embodiments, nouns, verbs, and/or repeatedwords in the document may be determined to be tags.

As shown further in FIG. 66, results of the search may be displayedsimultaneously with the document. For example, the results may bepositioned in a window associated with the interface 6600. In oneembodiment, the results may be displayed in a separate window from thedocument or on a tabbed page of interface 6600.

In one case, the search results may include at least one additionaldocument. In this case, the additional document may be associated withan online application corresponding to the document being displayedcurrently or another online application. Still yet, at least oneadditional term of the results may be identified (e.g. manually orautomatically). Further, an additional search may be performed utilizingthe search interface 6604, based on the at least one additional term. Inthis way, the search may be focused to better improve search results.

FIG. 67 shows a method 6700 for focusing a search, in accordance withone embodiment. As an option, the present method 6700 may be implementedin the context of the functionality and architecture of FIGS. 35-66. Ofcourse, however, the method 6700 may be carried out in any desiredenvironment. It should also be noted that the aforementioned definitionsmay apply during the present description.

As shown, a first search is performed. See operation 6702. Additionally,first search results of the first search are displayed. See operation6704. Further, at least one term of the first search results isidentified. See operation 6706.

Still yet, a second search is performed, based on the at least one termof the first search results. See operation 6708. In addition, secondsearch results of the second search are displayed. See operation 6710.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 68 shows an interface 6800 for focusing a search, in accordancewith one embodiment. As an option, the interface 6800 may be implementedin the context of the functionality and architecture of FIGS. 35-67. Ofcourse, however, the interface 6800 may be implemented in any desiredenvironment. It should also be noted that the aforementioned definitionsmay apply during the present description.

In operation, a first search is performed using a search interface 6804.Additionally, first search results of the first search are displayed. Inone embodiment, the search results may be displayed in a search resultswindow, in conjunction with displaying a document access by an onlineapplication.

Further, at least one term of the first search results is identified. Asecond search is then performed using the search interface 6804, basedon the at least one term of the first search results. In addition,second search results of the second search are displayed (e.g. in asearch results window).

As an option, the terms may be identified manually. In one case, termmay be identified manually by highlighting the at least one term. Inthis case, the second search may performed by performing a right clickoperation.

As another option, the terms may be identified automatically. Forexample, the may be identified automatically by parsing the first searchresults. In one case, nouns in the first search results may beidentified as the at least one term. Additionally, verbs in the firstsearch results may be identified as the at least one term. Still yet,repeated words in the first search results may be identified as the atleast one term.

Further, as an option, at least one term may include a plurality oftags. As another option, the at least one term may be selected from alist of a plurality of suggested terms. In this case, the suggestedterms may be generated automatically. Furthermore, in variousembodiments, the suggested terms may be hierarchically ranked in orderof a relevance value, a frequency of occurrence, alphabetically ranked,etc. As an additional option, the term may be selected by highlightingat least one of the suggested terms.

Furthermore, selecting the term may include selecting a term associatedwith a file corresponding to one or more online applications. In onecase, exploration with this file may include opening or executing theonline application. In various embodiments, this may be accomplishedusing any number of devices.

FIG. 69 shows a method 6900 for executing an online application on amobile device, in accordance with one embodiment. As an option, thepresent method 6900 may be implemented in the context of thefunctionality and architecture of FIGS. 35-68. Of course, however, themethod 6900 may be carried out in any desired environment. It shouldalso be noted that the aforementioned definitions may apply during thepresent description.

As shown, an online application is accessed utilizing a mobile device.See operation 6902. Additionally, at least a portion of a functionalityof the online application utilizing an application executed on themobile device. See operation 6904.

In the context of the present description, a mobile device refers to anydevice which may be utilized in a mobile fashion. For example, invarious embodiments, the mobile device may include, but is not limitedto, a mobile phone, a PDA, a handheld computer, a laptop, and/or anyother mobile device that meets the above definition.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 70 shows an interface 7000 for executing an online application on amobile device, in accordance with one embodiment. As an option, theinterface 7000 may be implemented in the context of the functionalityand architecture of FIGS. 35-69. Of course, however, the interface 7000may be implemented in any desired environment. It should also be notedthat the aforementioned definitions may apply during the presentdescription.

In operation, an online application is accessed utilizing a mobiledevice 102. Additionally, at least a portion of a functionality of theonline application utilizing an application executed on the mobiledevice 102. In one embodiment, the functionality may be performed by aclient application separate from a network browser. As an option, theportion of the functionality may be performed by a network browserplug-in installed on the mobile device 102.

The functionality of the online application may include anyfunctionality capable of being executed on the mobile device 102. Forexample, the portion of the functionality of the online application mayinclude formatting functionality (e.g. text formatting, paragraphformatting, etc.).

Further, in one case, the portion of the functionality may includefunctionality that would otherwise be provided by a server that servesthe online application. For example, the portion of the functionalitymay include responding to requests that would otherwise be provided by aserver that serves the online application. As another example, theportion of the functionality of the online application may be providedby buffering requests of a user, and delaying sending the requests to aserver that serves the online application.

In one embodiment, an online application utilizing may be accessedutilizing the mobile device 102 and a request of a user to the onlineapplication may be buffered. Additionally, sending the requests to aserver that serves the online application may be delayed. Still yet, aclient application separate from the network browser may react to therequest.

In this case, the reaction may be performed by a client applicationseparate from the network browser. For example, in one case the reactionmay be performed by a network browser plug-in installed on the mobiledevice 102. As an option, the reaction may simulate sending the requestto a server that serves the online application.

It should be noted that all of the aforementioned functionality may beimplemented on the mobile device 102. For example, the mobile device 102may be utilized to perform searches. Furthermore, various other commandsmay be implemented using the mobile device 102 (e.g. cutting, pasting,etc.).

FIG. 71 shows a method 7100 for intelligent cutting and pasting, inaccordance with one embodiment. As an option, the present method 7100may be implemented in the context of the functionality and architectureof FIGS. 35-70. Of course, however, the method 7100 may be carried outin any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

As shown, a cut or copy command with respect to data is received. Seeoperation 7102. In this case the data may be any data capable of beingcut or copied. For example, in various embodiments, the data may includetext, objects, symbols, pictures, and/or any other data as definedabove.

Additionally, a paste command with respect to the data is received. Seeoperation 7104. Further, an additional operation is performed on thedata, before the past command is executed. See operation 7106.

More illustrative information will now be set forth regarding variousoptional architectures and features with which the foregoing frameworkmay or may not be implemented, per the desires of the user. It should bestrongly noted that the following information is set forth forillustrative purposes and should not be construed as limiting in anymanner. Any of the following features may be optionally incorporatedwith or without the exclusion of other features described.

FIG. 72 shows an interface 7200 for intelligent cutting and pasting, inaccordance with one embodiment. As an option, the interface 7200 may beimplemented in the context of the functionality and architecture ofFIGS. 35-71. Of course, however, the interface 7200 may be implementedin any desired environment. It should also be noted that theaforementioned definitions may apply during the present description.

In operation, a cut or copy command with respect to data is receivedfrom the interface 7200. Additionally, a paste command with respect tothe data is received from the interface 7200. Further, an additionaloperation is performed on the data, before the past command is executed.

In one embodiment, the additional operation may add or remove formattingto the data. In this case, the formatting may include text formatting,paragraph formatting, object formatting, picture formatting, and/or anyother type of formatting. As an option, the additional operation mayinclude converting a first formatting of the data to a secondformatting.

In one embodiment, the second formatting may include a formatting of adestination associated with the paste command. In another embodiment,the additional operation may include performing an optical characterrecognition (OCR) on the data. In this case, the additional operationmay include performing the optical character recognition on the data,such that the paste command results in parsed text being pasted into adocument.

In one embodiment, the additional operation may be conditionallyperformed, based on a user instruction. In this case, the userinstruction may include a right-click operation. In one case, a standardpaste command may be distinguished from an intelligent paste command.Thus, it may be determined whether the paste command is an intelligentpaste command.

In one embodiment, the additional operation may be performed if it isdetermined that the paste command is an intelligent paste command. Inthis case, it may be determined whether the paste command is anintelligent paste command, based on user input.

In one embodiment, the user may have an option to use a standard pastecommand or an intelligent paste command. In this case, the intelligentpaste may be an optional preference under a settings menu. Thus, theuser may select to apply the intelligent paste command indefinitelythroughout a user session.

In another embodiment, the intelligent paste command may include spellcheck functionality. In this case, incorrect spelling of words copiedmay be remedied automatically upon invoking the paste command. Asanother option, the intelligent past command may include an option topaste using bullets. In this case, a user may paste copied text in abullet format. The bullets may be divided in a variety of ways. Forexample, the bullets may be divided by carriage return, key word,periods, commas, or any other punctuation, etc. In one case, options forbullet division may be offered in a preferences or settings menu.

While various embodiments have been described above, it should beunderstood that they have been presented by way of example only, and notlimitation. Thus, the breadth and scope of a preferred embodiment shouldnot be limited by any of the above-described exemplary embodiments, butshould be defined only in accordance with the following claims and theirequivalents.

1. A computer program product embodied on a non-transitorycomputer-readable medium, comprising: code for working in associationwith a vehicular assembly coupleable to a vehicle, the vehicularassembly including at least one processor, memory, at least one inputdevice, at least one display, at least one speaker, at least onemicrophone, a navigation system, and at least one interface capable ofcommunicating with a mobile device; code for causing communicationbetween the mobile device and the vehicular assembly, utilizing the atleast one interface of the vehicular assembly; code for causing adetermination whether a trigger signal is received, utilizing thevehicular assembly; code for, after it is determined that the triggersignal has been received, allowing receipt of an utterance, utilizingthe at least one microphone of the vehicular assembly; code for, inresponse to the utterance, causing retrieval of certain content; codefor using the certain content, utilizing the vehicular assembly; codefor allowing receipt of a user request for mobile phone content,utilizing the vehicular assembly; code for, in response to the receiptof the user request for mobile phone content, causing output of themobile phone content, utilizing the vehicular assembly; code forallowing receipt of a user request for traffic service content,utilizing the vehicular assembly; code for, in response to the receiptof the user request for traffic service content, causing output of thetraffic service content, utilizing the vehicular assembly; code forallowing receipt of a user request for particular content, utilizing thevehicular assembly; code for, in response to the receipt of the userrequest for particular content, causing generation of a particularcontent request; code for causing transmission of the particular contentrequest; code for allowing receipt of the particular content; code for,after the receipt of the particular content, causing output of theparticular content, utilizing the vehicular assembly; code for allowingreceipt of a user request for streaming content, utilizing the vehicularassembly; code for, in response to the receipt of the user request forstreaming content, causing generation of a streaming content request forthe streaming content; code for causing transmission of the streamingcontent request; code for allowing receipt of the streaming content;code for causing output of the streaming content, utilizing the at leastone speaker of the vehicular assembly; code for, in association with thevehicular assembly, allowing access to a plurality of different onlineapplications including a first online application that provides accessto a first functionality associated with the first online applicationand a second online application that provides access to a secondfunctionality associated with the second online application; and codefor: causing output of at least one first online application identifierassociated with the first online application for access purposes;causing output of at least one second online application identifierassociated with the second online application for access purposes;receiving a selection of the at least one first online applicationidentifier associated with the first online application for accesspurposes; receiving a selection of the at least one second onlineapplication identifier associated with the second online application foraccess purposes; in response to the selection of the at least one firstonline application identifier associated with the first onlineapplication for access purposes, allowing access to the first onlineapplication; in response to the selection of the at least one secondonline application identifier associated with the second onlineapplication for access purposes, allowing access to the second onlineapplication, wherein the computer program product is operable such thatat least multiple of the different online applications each have atleast one server associated therewith and is capable of having anassociated user identifier and password for use in accessinguser-specific information stored utilizing the at least one server; andrequests for application content associated with the multiple differentonline applications and receipt of the application content are bothcarried out utilizing a mobile device/vehicular assembly communicationchannel such that a separate wireless channel of the mobile device isutilized to receive the application content; wherein the computerprogram product is operable such that on-line radio station content isreceived in connection with at least one of the different onlineapplications.
 2. The computer program product of claim 1, wherein thecertain content includes the application content which includes theon-line radio content.
 3. The computer program product of claim 1, andfurther comprising code for allowing receipt of a user request for atleast one of news, weather, or stock content, utilizing the vehicularassembly; code for, in response to the receipt of the user request forat least one of news, weather, or stock content, causing generation of acorresponding content request; code for causing transmission of thecorresponding content request; code for allowing receipt ofcorresponding content; and code for, after the receipt of thecorresponding content, causing output of the corresponding content,utilizing the vehicular assembly.
 4. The computer program product ofclaim 1, wherein the code for working in association with the vehicularassembly includes an application program interface.
 5. The computerprogram product of claim 1, wherein the code includes hardware code. 6.The computer program product of claim 1, wherein the code includessoftware code and the multiple different online applications include thefirst online application and the second online application.
 7. Thecomputer program product of claim 1, wherein each user request includesat least one of tactile input or vocal input.
 8. The computer programproduct of claim 1, wherein the computer program product is operablesuch that each of the requests are caused to be transmitted utilizingthe mobile device/vehicular assembly communication channel such that theseparate cellular or broadband wireless channel of the mobile device isutilized to request responses.
 9. The computer program product of claim1, wherein the computer program product is operable such that a subsetof data on the mobile device is received automatically in response to aninitial communication between the mobile device and the vehicularassembly for generating speech recognition tags and allowing immediateaccess to various content utilizing the speech recognition tags, afterwhich and while allowing the immediate access, additional data isautomatically received from the mobile device for generating additionalspeech recognition tags.
 10. The computer program product of claim 1,wherein the computer program product is operable such that informationis received via the mobile device and the navigation system of thevehicular assembly is capable of displaying the information on a map.11. The computer program product of claim 1, and further comprising codefor receiving a selection of an address from a web page; and code forcausing the address to be sent for a purpose of navigational informationgeneration.
 12. The computer program product of claim 1, and furthercomprising code for receiving a selection of an address from a web page;and code for causing the address to be sent for the purpose of allowinggeneration of navigational information that is based on the address,utilizing the navigation system of the vehicular assembly.
 13. Thecomputer program product of claim 1, and further comprising code forreceiving a selection of an address from a web page and a selection ofpredetermined indicia; and code for, in response to the selection ofpredetermined indicia, causing the address to be sent for the purpose ofallowing output of driving directions utilizing the navigation system ofthe vehicular assembly.
 14. The computer program product of claim 1, andfurther comprising code for allowing a user to initiate socialnetworking-related status updates.
 15. The computer program product ofclaim 1, and further comprising code for allowing receipt of userrequests for news, weather, and stock content, utilizing the vehicularassembly; code for, in response to the receipt of the user requests forthe news, weather, and stock content, causing generation of acorresponding content requests; code for causing transmission of thecorresponding content requests; code for allowing receipt ofcorresponding content; and code for, after the receipt of thecorresponding content, causing output of the corresponding content,utilizing the vehicular assembly.
 16. The computer program product ofclaim 1, wherein the at least one processor includes at least one of amicroprocessor and a central processing unit.
 17. The computer programproduct of claim 1, wherein the at least one input device includes abutton.
 18. The computer program product of claim 1, wherein thecomputer program product is operable to retrieve calendar informationfrom the mobile device, and convert the calendar information from textto speech for output utilizing the at least one speaker of the vehicularassembly.
 19. The computer program product of claim 1, wherein thecomputer program product is operable such that requests for certain dataassociated with the first online application and the second onlineapplication and receipt of the certain data are both carried oututilizing the mobile device/vehicular assembly communication channelsuch that the separate wireless channel of the mobile device is utilizedto obtain the certain data.
 20. The computer program product of claim 1,wherein the computer program product is operable such that a pluralityof different data structures corresponding to a plurality of differentmobile devices are stored for use in tailoring an interaction betweenthe different mobile devices and the vehicular assembly.
 21. Thecomputer program product of claim 1, wherein the at least one displayincludes a main display and a plurality of passenger displays, and thecomputer program product is operable such that media from the mobiledevice is capable of being displayed via one or more of the passengerdisplays.
 22. The computer program product of claim 1, wherein the atleast one display includes a main display and at least one passengerdisplay, and the computer program product is operable such thatpassenger display input received utilizing the at least one passengerdisplay affects main display output that is displayed utilizing the maindisplay.
 23. The computer program product of claim 1, wherein the atleast one display includes a main display and at least one passengerdisplay, and the computer program product is operable such thatpassenger display navigational-related input received utilizing the atleast one passenger display affects main display navigational- relatedoutput that is displayed utilizing the main display.
 24. The computerprogram product of claim 1, wherein the computer program product isoperable such that a user is capable of transferring at least one aspectof a current call from the mobile device to the vehicular assemblywithout having to hang up the current call.
 25. The computer programproduct of claim 1, wherein the computer program product is operablesuch that predetermined indicia capable of being displayed with themobile device is also capable of being displayed utilizing the at leastone display of the vehicular assembly.
 26. The computer program productof claim 25, wherein the predetermined indicia is associated with atleast one of a caller identification, a caller log, a list of contacts,a signal strength icon, a music list, or a content list.
 27. Thecomputer program product of claim 25, wherein the predetermined indiciais associated with a caller identification, a caller log, a list ofcontacts, and a content list.
 28. The computer program product of claim1, wherein the computer program product is operable such that datainvolving at least one of contacts, a message, a calendar, a bookmark,or music is received from the mobile device, a plurality of tags aregenerated based on the data, and at least one of the tags is compared inconnection with the utterance that is received utilizing the at leastone microphone of the vehicular assembly.
 29. The computer programproduct of claim 1, wherein the computer program product is operablesuch that only a subset of data on the mobile device is received forgenerating tags.
 30. The computer program product of claim 29, whereinthe subset of data includes only updated data.
 31. The computer programproduct of claim 1, wherein the computer program product is operablesuch that only a subset of data on the mobile device is receivedautomatically in response to an initial communication between the mobiledevice and the vehicular assembly, based on a selection of a user. 32.The computer program product of claim 31, wherein the selection of theuser is stored as a configuration on the mobile device.
 33. The computerprogram product of claim 31, wherein the subset of data includes onlyupdated data.
 34. The computer program product of claim 31, wherein thecomputer program product is operable such that only the subset of dataon the mobile device is received automatically in response to theinitial communication between the mobile device and the vehicularassembly, in order to reduce an initialization time.
 35. The computerprogram product of claim 1, wherein the computer program product isoperable such that only a subset of data on the mobile device isreceived automatically in response to an initial communication betweenthe mobile device and the vehicular assembly, based on a configurationof the vehicle.
 36. The computer program product of claim 1, wherein thecomputer program product is operable such that a subset of data on themobile device is received automatically in response to an initialcommunication between the mobile device and the vehicular assembly forgenerating tags and allowing immediate access to various contentutilizing the tags, after which and while allowing the immediate access,additional data is automatically received from the mobile device forgenerating additional tags.
 37. The computer program product of claim 1,wherein the computer program product is operable such that first dataupdated and stored utilizing the vehicular assembly is identified,second data updated and stored utilizing the mobile device isidentified, and the first data and the second data are synchronized. 38.The computer program product of claim 1, wherein the computer programproduct is operable such that a favorite station that is a subject of anupdate utilizing the vehicular assembly is identified and the mobiledevice is updated with the favorite station for synchronizationpurposes.
 39. The computer program product of claim 1, wherein thecomputer program product is operable such that a new contact that is asubject of an update utilizing the vehicular assembly is identified andthe mobile device is updated with the new contact for synchronizationpurposes.
 40. The computer program product of claim 1, wherein thecomputer program product is operable such that a favorite station thatis a subject of an update utilizing the mobile device is identified andthe vehicular assembly is updated with the favorite station forsynchronization purposes.
 41. The computer program product of claim 1,wherein the computer program product is operable such that a new contactthat is a subject of an update utilizing the mobile device is identifiedand the vehicular assembly is updated with the new contact forsynchronization purposes.
 42. The computer program product of claim 1,wherein the computer program product is operable such that a new pointof interest including coordinates that is a subject of entry utilizingthe mobile device is identified and the vehicular assembly is updatedwith the new point of interest including the coordinates.
 43. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the vehicular assembly is capable ofreceiving a software update via the mobile device.
 44. The computerprogram product of claim 1, wherein the computer program product isoperable such that updated traffic data is received by the vehicularassembly utilizing the mobile device and the updated traffic data isutilized in connection with a navigation function of the vehicularassembly.
 45. The computer program product of claim 1, wherein thecomputer program product is operable such that location-relatedinformation is identified utilizing the navigation system of thevehicular assembly, and the mobile device is caused to be used toidentify additional information based on the location-relatedinformation, such that the additional information is capable of beingdisplayed utilizing the at least one display of the vehicular assembly.46. The computer program product of claim 1, wherein the computerprogram product is operable such that location-related information isidentified utilizing the mobile device, and the mobile device is used toidentify additional information based on the location-relatedinformation, such that the additional information is capable of beingdisplayed utilizing the at least one display of the vehicular assembly.47. The computer program product of claim 1, wherein the computerprogram product is operable such that requests for certain data andreceipt of the certain data are carried out utilizing the mobiledevice/vehicular assembly communication channel such that the separatecellular or broadband wireless channel of the mobile device is utilizedto receive the certain data, wherein output of the at least one displayof the vehicular assembly is based, at least in part, on the certaindata.
 48. The computer program product of claim 1, wherein the computerprogram product is operable such that one or more images stored on themobile device is capable of being utilized as a wallpaper for the atleast one display of the vehicular assembly.
 49. The computer programproduct of claim 1, wherein the computer program product is operablesuch that one or more images stored on the mobile device is capable ofbeing selected or deselected for display, and utilized as a wallpaper inconnection with the at least one display of the vehicular assembly. 50.The computer program product of claim 1, wherein the computer programproduct is operable such that one or more images stored in an onlinedatabase is capable of being utilized as a wallpaper for the at leastone display of the vehicular assembly.
 51. The computer program productof claim 1, and further comprising software application code for workingin association with the mobile device to cooperate with the code forworking in association with the vehicular assembly, the softwareapplication code including code for interfacing with the differentonline applications via a network.
 52. The computer program product ofclaim 1, and further comprising software application code for working inassociation with the mobile device to cooperate with the code forworking in association with the vehicular assembly, the softwareapplication code including code for interfacing with the first onlineapplication over a network and causing an output of the firstfunctionality utilizing the vehicular assembly.
 53. The computer programproduct of claim 1, wherein the computer program product is operablesuch that navigational information is received via the mobile device andthe navigation system of the vehicular assembly is capable of utilizingthe navigational information.
 54. The computer program product of claim1, wherein the computer program product is operable such that at leastone map is received utilizing the mobile device and the navigationsystem of the vehicular assembly is capable of utilizing the at leastone map.
 55. The computer program product of claim 1, wherein thecomputer program product is operable such that destination informationis received utilizing the mobile device and the vehicular assembly iscapable of outputting a route based, at least in part, on thedestination information.
 56. The computer program product of claim 1,wherein the computer program product is operable such that destinationinformation is received utilizing the mobile device and the navigationsystem of the vehicular assembly is capable of creating and outputting aroute based, at least in part, on the destination information.
 57. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the at least one display of the vehicularassembly is capable of displaying a plurality of application icons thatis capable of being displayed on the mobile device.
 58. The computerprogram product of claim 1, wherein the computer program product isoperable such that the at least one display of the vehicular assembly iscapable of displaying a minor image of what is capable of beingdisplayed on the mobile device.
 59. The computer program product ofclaim 1, wherein the computer program product is operable such that astandardized application program interface is provided for allowingaccess thereto by a plurality of diverse application program developers,wherein a desired application on the mobile device is capable of beingaccessed utilizing the vehicular assembly.
 60. The computer programproduct of claim 1, wherein the computer program product is operablesuch that a standardized application program interface is provided forallowing a desired application on the mobile device to be accessedutilizing the vehicular assembly.
 61. The computer program product ofclaim 1, wherein the computer program product is operable such that arequest for Internet content and receipt of the Internet content arecarried out utilizing the mobile device/vehicular assembly communicationchannel such that the separate cellular or broadband wireless channel ofthe mobile device is caused to be utilized to retrieve the Internetcontent, wherein the computer program product is further operable suchthat a map that is output utilizing the at least one display of thevehicular assembly is based, at least in part, on the Internet content.62. The computer program product of claim 61, wherein the computerprogram product is operable such that the request for the Internetcontent involves a receipt of a corresponding utterance that isprocessed to determine at least one word capable of being used inconnection with the retrieval of the Internet content.
 63. The computerprogram product of claim 1, wherein the computer program product isoperable such that a request for Internet content and receipt of theInternet content are carried out utilizing the mobile device/vehicularassembly communication channel such that the separate cellular orbroadband wireless channel of the mobile device is utilized to retrievethe Internet content, wherein the computer program product is furtheroperable such that a map is generated utilizing the navigation system ofthe vehicular assembly based, at least in part, on the Internet content,and output utilizing the at least one display of the vehicular assembly.64. The computer program product of claim 63, wherein the computerprogram product is operable such that the request for the Internetcontent involves a receipt of a corresponding utterance that isprocessed to determine at least one word capable of being used inconnection with the retrieval of the Internet content.
 65. The computerprogram product of claim 1, wherein the computer program product isoperable such that predetermined content is conditionally displayedutilizing the vehicular assembly, based on a movement of the vehicle.66. The computer program product of claim 1, wherein the computerprogram product is operable such that predetermined functionality isconditionally provided utilizing the vehicular assembly, based on amovement of the vehicle.
 67. The computer program product of claim 1,and further comprising software application code for working inassociation with the mobile device to cooperate with the code forworking in association with the vehicular assembly, the softwareapplication code including first application program interface code forinterfacing with the different online applications via a network, andsecond application program interface code for interfacing with thevehicular assembly.
 68. The computer program product of claim 1, andfurther comprising software application code for working in associationwith the mobile device to cooperate with the code for working inassociation with the vehicular assembly, the software application codeincluding first application program interface code for interfacing withthe different online applications via a network and at least one mobileapplication installed on the mobile device, and second applicationprogram interface code for interfacing with the vehicular assembly. 69.The computer program product of claim 1, and further comprising code forallowing receipt of a user request for particular contact content,utilizing the vehicular assembly; code for, in response to the receiptof the user request for particular contact content, causing output ofthe particular contact content, utilizing the vehicular assembly; codefor allowing receipt of a user request for driving directions to aparticular contact address associated with the particular contactcontent, utilizing the vehicular assembly; code for, in response to thereceipt of the user request for driving directions to the particularcontact address, causing generation of the driving directions to theparticular contact address; code for causing output of the drivingdirections to the particular contact address, utilizing the at least onedisplay of the vehicular assembly; and code for storing the particularaddress as a point-of-interest in associated with the navigation systemof the vehicular assembly.
 70. The computer program product of claim 1,and further comprising: code for allowing receipt of an e-mail utilizingthe vehicular assembly; code for causing conversion of the e-mail fromtext to speech utilizing the at least one processor of the vehicularassembly; and code for causing output of the e-mail utilizing the atleast one speaker of the vehicular assembly.
 71. The computer programproduct of claim 1, and further comprising: code for allowing receipt ofa message from a remote entity utilizing the vehicular assembly; codefor causing conversion of the message from text to speech utilizing theat least one processor of the vehicular assembly; code for causingoutput of the message utilizing the at least one speaker of thevehicular assembly; code for sending an additional message to the remoteentity utilizing the vehicular assembly by receiving a selection of aspeech-to-text communication or a recorded voice message communication;and code for sending the additional message via the speech-to-textcommunication or the recorded voice message communication.
 72. Thecomputer program product of claim 71, wherein the computer programproduct is operable such that the received selection is capable oftaking a form of a corresponding utterance.
 73. The computer programproduct of claim 1, and further comprising: code for allowing receipt ofa message from a remote entity utilizing the vehicular assembly; codefor causing conversion of the message from text to speech utilizing theat least one processor of the vehicular assembly; code for causingoutput of the message utilizing the at least one speaker of thevehicular assembly; code for sending an additional message to the remoteentity utilizing the vehicular assembly; code for receiving a selectionof an attachment; and code for sending the additional message with theattachment, based on the selection.
 74. The computer program product ofclaim 73, wherein the computer program product is operable such that theattachment includes navigation information.
 75. The computer programproduct of claim 73, wherein the computer program product is operablesuch that the attachment includes a voice recording.
 76. The computerprogram product of claim 73, wherein the computer program product isoperable such that the attachment includes an identifier.
 77. Thecomputer program product of claim 73, wherein the computer programproduct is operable such that the attachment includes digital media. 78.The computer program product of claim 1, and further comprising code forreceiving configuration input from a user, and code for configuring acontrol of the vehicular assembly that is associated with at least oneaspect of the mobile device, based on the configuration input.
 79. Thecomputer program product of claim 78, wherein the at least one aspect ofthe mobile device involves an application program.
 80. The computerprogram product of claim 78, and further comprising code for displayinga current configuration of the control utilizing the at least onedisplay of the vehicular assembly.
 81. The computer program product ofclaim 80, wherein the computer program product is operable such that thecurrent configuration is displayed by displaying a plurality of thecontrols and an associated current aspect of the mobile device that isthereby controlled.
 82. The computer program product of claim 81,wherein the computer program product is operable such that a pluralityof options are displayed with the current configuration for changing theassociated current aspect of the mobile device.
 83. The computer programproduct of claim 1, wherein the at least one input device includes atouchscreen.
 84. The computer program product of claim 1, wherein thecomputer program product is operable such that social contact indiciaassociated with a social contact is displayed on a map on the at leastone display of the vehicular assembly.
 85. The computer program productof claim 1, wherein the computer program product is operable such thatcontact indicia associated with a contact is displayed on a map on theat least one display of the vehicular assembly.
 86. The computer programproduct of claim 1, wherein the computer program product is operablesuch that social contact indicia associated with a social contact iscapable of being displayed on a map on the at least one display of thevehicular assembly, along with a plurality of other social contactindicia associated with other social contacts.
 87. The computer programproduct of claim 1, and further comprising code for storing a socialcontact address associated with a social contact as a point-of-interestin association with the navigation system of the vehicular assembly. 88.The computer program product of claim 1, and further comprising code forstoring social contact data associated with the social contact inassociation with the navigation system of the vehicular assembly. 89.The computer program product of claim 1, wherein the at least oneinterface includes a wired or wireless interface.
 90. The computerprogram product of claim 1, wherein the at least one input device andthe at least one display are components of a touch screen device. 91.The computer program product of claim 1, wherein the at least onedisplay includes a touch screen device.
 92. The computer program productof claim 1, and further comprising code for identifying a currentlocation such traffic content is related to the current location. 93.The computer program product of claim 1, and further comprising code foridentifying a current location and at least one aspect of a route suchthat the traffic content is related to the current location and the atleast one aspect of the route.
 94. The computer program product of claim1, wherein the computer program product is operable such that anautomatically-generated estimated time of arrival is caused to becommunicated.
 95. The computer program product of claim 1, and furthercomprising code for allowing receipt of a user request for communitytraffic content including third party traffic condition input from aplurality of vehicles, utilizing the vehicular assembly; code for, inresponse to the receipt of the user request for community trafficcontent, causing generation of a community traffic content request forthe community traffic content; code for causing transmission of thecommunity traffic content request; and code for allowing receipt of thecommunity traffic content; and code for, after the receipt of thecommunity traffic content, causing output of the community trafficcontent, utilizing the vehicular assembly.
 96. The computer programproduct of claim 1, and further comprising code for allowing receipt ofa user input requesting communication of user traffic conditioninformation, utilizing the vehicular assembly; code for, in response tothe receipt of the user input requesting the communication of usertraffic condition information, allowing generation of the user trafficcondition information; and code for causing transmission of the usertraffic condition information.
 97. The computer program product of claim96, wherein the computer program product is operable such that thegeneration of the user traffic condition information and thetransmission of the user traffic condition information is conductedrepeatedly and automatically.
 98. The computer program product of claim1, wherein the computer program product is operable to allow a user toinitiate a predefined text message.
 99. The computer program product ofclaim 1, wherein the computer program product is operable to retrievedata from the mobile device, the data including calendar information,for display purposes.
 100. The computer program product of claim 1, andfurther comprising code for allowing receipt of a user request for newsand weather content, utilizing the vehicular assembly; code for, inresponse to the receipt of the user request for news and weathercontent, causing generation of a corresponding content request; code forcausing transmission of the corresponding content request; code forallowing receipt of corresponding content; code for, after the receiptof the corresponding content, causing conversion of the correspondingcontent, at least in part, to corresponding speech utilizing the atleast one processor of the vehicular assembly; and code for causingoutput of the corresponding speech, utilizing the at least one speakerof the vehicular assembly.
 101. The computer program product of claim 1,and further comprising code for allowing receipt of a user request fornews, weather, and stock content, utilizing the vehicular assembly; codefor, in response to the receipt of the user request for news, weather,and stock content, causing generation of a corresponding contentrequest; code for causing transmission of the corresponding contentrequest; code for allowing receipt of corresponding content; code for,after the receipt of the corresponding content, causing conversion ofthe corresponding content, at least in part, to corresponding speechutilizing the at least one processor of the vehicular assembly; and codefor causing output of the corresponding speech, utilizing the at leastone speaker of the vehicular assembly.
 102. The computer program productof claim 1, and further comprising code for providing driving directionsto a location of a social contact, in response to selection of an icon.103. The computer program product of claim 1, and further comprisingcode for allowing receipt of a user request for contacts databasecontent from a contacts database stored on the mobile device, utilizingthe vehicular assembly; code for, in response to the receipt of the userrequest for contacts database content, causing generation of a contactsdatabase content request for the contacts database content; code forcausing transmission of the contacts database content request; code forallowing receipt of the contacts database content; code for, after thereceipt of the contacts database content, causing processing of thecontacts database content, utilizing the at least one processor of thevehicular assembly; and code for causing output of the contacts databasecontent, utilizing the vehicular assembly.
 104. The computer programproduct of claim 103, and further comprising code for allowing receiptof a user request for driving directions to a particular contact addressfrom the contacts database stored on the mobile device, utilizing thevehicular assembly; code for, in response to the receipt of the userrequest for driving directions to the particular contact address,causing generation of the driving directions to the particular contactaddress; and code for causing output of the driving directions to theparticular contact address, utilizing the at least one display of thevehicular assembly.
 105. The computer program product of claim 103, andfurther comprising code for allowing receipt of a user request forcommunication with a particular contact from the contacts databasestored on the mobile device, utilizing the vehicular assembly; and codefor, in response to the receipt of the user request for communicationwith the particular contact, allowing communication with the particularcontact.
 106. The computer program product of claim 1, and furthercomprising: code for allowing receipt of an instant message, utilizingthe vehicular assembly; code for causing conversion of the instantmessage from text to speech, utilizing the at least one processor of thevehicular assembly; and code for causing output of the instant message,utilizing the at least one speaker of the vehicular assembly.
 107. Thecomputer program product of claim 106, wherein the code for causingconversion of the instant message from text to speech converts a senderidentifier of the instant message from text to speech, and furtherwherein the computer program product is operable such that the senderidentifier of the instant message is displayed utilizing the at leastone display of the vehicular assembly.
 108. The computer program productof claim 106, and further comprising code for displaying a plurality ofmessage options for being selected to be sent to a recipient, utilizingthe vehicular assembly.
 109. The computer program product of claim 108,wherein the plurality of message options includes predefined textmessages.
 110. The computer program product of claim 108, wherein theplurality of message options includes an automatically providedestimated time of arrival.
 111. The computer program product of claim108, wherein the plurality of message options includes a status.
 112. Asystem, comprising the computer program product of claim 1, and furthercomprising the vehicular assembly.
 113. A system, comprising thecomputer program product of claim 1, and further comprising thevehicular assembly and the vehicle where the vehicular assembly iscoupleable to the vehicle by being integrated within the vehicle.
 114. Asystem, comprising the computer program product of claim 1, and furthercomprising the mobile phone and the different online applications. 115.The computer program product of claim 1, wherein the computer programproduct is operable such that a subset of data on the mobile device isreceived automatically in response to an initial communication betweenthe mobile device and the vehicular assembly for allowing immediateaccess thereto, after which and while allowing the immediate access,additional data is automatically received from the mobile device. 116.The computer program product of claim 1, wherein the computer programproduct is operable such that the mobile phone content is from a contactdatabase stored on the mobile device; at least one of the trafficservice content or the particular content is provided by at least one ofthe different online applications; and the certain content includes thestreaming content.
 117. The computer program product of claim 1, whereinthe at least one display includes a main display and at least onepassenger display, and further comprising: code for receiving aplurality of points-of-interest from the navigation system of thevehicular assembly; code for filtering the plurality ofpoints-of-interest; code for displaying the filtered plurality ofpoints-of-interest utilizing the at least one passenger display; codefor receiving passenger input from a passenger utilizing the at leastone passenger display; and code for reporting navigation informationutilizing the main display, based on the passenger input, for adjustingdriving directions.
 118. The computer program product of claim 117,wherein the navigation information includes at least one selectedpoint-of-interest.
 119. The computer program product of claim 117,wherein the navigation information takes a form of a recommendation.120. The computer program product of claim 117, wherein the computerprogram product is operable such that the plurality ofpoints-of-interest are filtered based on at least one ofpoint-of-interest type, distance from a current location, an estimatedtime of arrival from a current location, or a distance from a currentroute.
 121. The computer program product of claim 117, wherein thecomputer program product is operable such that the plurality ofpoints-of-interest are filtered based on a least one ofpoint-of-interest type.
 122. The computer program product of claim 117,wherein the computer program product is operable such that the pluralityof points-of-interest are filtered based on a current location.
 123. Thecomputer program product of claim 117, wherein the computer programproduct is operable such that the plurality of points-of-interest arefiltered based on a current route.
 124. The computer program product ofclaim 117, wherein the at least one first online application identifierand the at least one second online application identifier are outputtedvisually.
 125. The computer program product of claim 1, and furthercomprising code for receiving tags in connection with applicationinformation associated with at least one of the different onlineapplications, for being correlated with the application information.126. The computer program product of claim 1, wherein the computerprogram product is operable such that a voice command is capable ofbeing received in connection with at least one of the different onlineapplications.
 127. The computer program product of claim 1, wherein thecomputer program product is operable such that location-based trafficconditions are provided.
 128. The computer program product of claim 1,wherein the computer program product is operable such that each of thedifferent online applications each has at least one server associatedtherewith and is capable of having the associated user identifier andpassword for use in accessing the user-specific profile informationstored utilizing the at least one server.
 129. The computer programproduct of claim 1, wherein the streaming content includes theapplication content which includes the on-line radio content whichincludes on-line radio station content.
 130. The computer programproduct of claim 1, wherein the computer program product is operablesuch that points-of-interest-related information is capable of beingreceived in connection with at least one of the different onlineapplications via a network and the navigation system of the vehicularassembly is capable of utilizing the points-of-interest-relatedinformation.
 131. The computer program product of claim 1, wherein thecomputer program product is operable such that destination-relatedinformation is capable of being received in connection with at least oneof the different online applications and the navigation system of thevehicular assembly is capable of creating a route utilizing thedestination-related information.
 132. The computer program product ofclaim 1, wherein the computer program product is operable such that thestreaming content is received in connection with at least one of thedifferent online applications; wherein the computer program product isoperable such that points-of-interest-related information is capable ofbeing received in connection with at least one of the different onlineapplications via the separate wireless channel and the navigation systemof the vehicular assembly is capable of utilizing thepoints-of-interest-related information; wherein the computer programproduct is operable such that destination-related information is capableof being received in connection with at least one of the differentonline applications via the separate wireless channel and the navigationsystem of the vehicular assembly is capable of creating a routeutilizing the destination-related information; and further comprisingsoftware application code for working in association with the mobiledevice and including first code for interfacing with the mobile device,and second code for interfacing with the vehicular assembly.
 133. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the streaming content is received inconnection with at least one of the different online applications;wherein the computer program product is operable such thatpoints-of-interest-related information is capable of being received inconnection with at least one of the different online applications via anetwork and the navigation system of the vehicular assembly is capableof utilizing the points-of-interest-related information; wherein thecomputer program product is operable such that destination-relatedinformation is capable of being received in connection with at least oneof the different online applications and the navigation system of thevehicular assembly is capable of creating a route utilizing thedestination-related information; wherein the computer program product isoperable such that a user is capable of transferring at least one aspectof a current call from the mobile device to the vehicular assemblywithout having to hang up the current call; wherein the mobile phonecontent includes contacts database content, and further comprising: codefor causing generation of a contacts database content request for thecontacts database content; code for causing transmission of the contactsdatabase content request; code for allowing receipt of the contactsdatabase content; code for causing output of the contacts databasecontent, utilizing the vehicular assembly; code for allowing receipt ofan oral user request for communication with a particular contact from acontacts database stored on the mobile device, utilizing the vehicularassembly; code for, in response to the receipt of the oral user requestfor communication with the particular contact, allowing communicationwith the particular contact; code for allowing receipt of an instantmessage, utilizing the vehicular assembly; code for causing conversionof the instant message from text to speech, utilizing the at least oneprocessor of the vehicular assembly; code for causing output of theinstant message, utilizing the at least one speaker of the vehicularassembly; and software application code for working in association withthe mobile device to cooperate with the code for working in associationwith the vehicular assembly, the software application code includingfirst code for interfacing with mobile code installed on the mobiledevice, and second code for interfacing with vehicular assembly codeinstalled on the vehicular assembly; wherein the computer programproduct is operable such that the vehicular assembly is capable ofreceiving a software update utilizing the mobile device; wherein thecomputer program product is operable such that a voice command iscapable of being received in connection with at least one of thedifferent online applications.
 134. The computer program product ofclaim 133, and further comprising code for receiving tags in connectionwith application information associated with at least one of thedifferent online applications, for being correlated with the applicationinformation.
 135. The computer program product of Claim 1, wherein thecomputer program product is operable such that a separate log-in isrequired for accessing each of the different online applications. 136.The computer program product of Claim 133, and further comprising: codefor allowing receipt of a user request for at least one of news,weather, or stock content, utilizing the vehicular assembly; code for,in response to the receipt of the user request for at least one of news,weather, or stock content, causing generation of a corresponding contentrequest; code for causing transmission of the corresponding contentrequest; code for allowing receipt of corresponding content; and codefor, after the receipt of the corresponding content, causing output ofthe corresponding content, utilizing the vehicular assembly.
 137. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the particular content includesnews-related information and weather-related information and is receivedin connection with at least one of the different online applications.138. The computer program product of claim 1, wherein the computerprogram product is operable such that the traffic service content isreceived in connection with at least one of the different onlineapplications.
 139. The computer program product of claim 1, wherein thecomputer program product is operable such thatpoints-of-interest-related information is capable of being received inconnection with at least one of the different online applications via anetwork and the navigation system of the vehicular assembly is capableof creating points-of-interest utilizing the points-of-interest-relatedinformation and calculate a distance.
 140. The computer program productof claim 1, wherein the computer program product is operable such thatdestination-related information is capable of being received inconnection with at least one of the different online applications via anetwork and the navigation system of the vehicular assembly is capableof creating a route utilizing the destination-related information. 141.The computer program product of claim 1, wherein the computer programproduct is operable such that location-based traffic conditions areprovided in connection with the traffic service content.
 142. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the mobile phone content is from a contactdatabase stored on the mobile device; at least one of the trafficservice content or the particular content is provided by at least one ofthe different online applications; and the certain content includes thestreaming content.
 143. The computer program product of claim 1, whereinthe computer program product is operable such that the particularcontent includes news-related information and weather-relatedinformation and is received in connection with at least one of thedifferent online applications; wherein the computer program product isoperable such that the traffic service content is received in connectionwith at least one of the different online applications; wherein thecomputer program product is operable such thatpoints-of-interest-related information is capable of being received inconnection with at least one of the different online applications via anetwork and the navigation system of the vehicular assembly is capableof creating points-of-interest utilizing the points-of- interest-relatedinformation and calculate a distance; wherein the computer programproduct is operable such that a user is capable of transferring at leastone aspect of a current call from the mobile device to the vehicularassembly without having to hang up the current call; wherein the mobilephone content includes contacts database content, and furthercomprising: code for causing generation of a contacts database contentrequest for the contacts database content; code for causing transmissionof the contacts database content request; code for allowing receipt ofthe contacts database content; code for causing output of the contactsdatabase content, utilizing the vehicular assembly; code for allowingreceipt of a user request for driving directions to a particular contactaddress from the mobile device, utilizing the vehicular assembly; codefor, in response to the receipt of the user request for drivingdirections to the particular contact address, causing generation of thedriving directions to the particular contact address; code for causingoutput of the driving directions to the particular contact address,utilizing the at least one display of the vehicular assembly; code forallowing receipt of an oral user request for communication with aparticular contact from a contacts database stored on the mobile device,utilizing the vehicular assembly; and code for, in response to thereceipt of the oral user request for communication with the particularcontact, allowing communication with the particular contact.
 144. Thecomputer program product of claim 143, wherein said at least one displayincludes a main display and at least one passenger display, and furthercomprising: code for receiving a plurality of points-of-interest fromthe navigation system of the vehicular assembly; code for filtering theplurality of points-of-interest based on point-of-interest type; codefor displaying the filtered plurality of points-of-interest utilizingthe at least one passenger display; code for receiving passenger inputfrom a passenger utilizing the at least one passenger display; and codefor reporting navigation information utilizing the main display, basedon the passenger input, for adjusting driving directions, the navigationinformation including at least one selected point-of-interest.
 145. Thecomputer program product of claim 144, wherein the navigationinformation takes a form of a recommendation.
 146. The computer programproduct of claim 144, wherein the computer program product is operablesuch that a new contact that is a subject of an update utilizing themobile device is identified and the vehicular assembly is updated withthe new contact.
 147. The computer program product of claim 144, whereinthe computer program product is operable such that a new point ofinterest that is a subject of entry utilizing the mobile device isidentified and the vehicular assembly is updated with the new point ofinterest.
 148. The computer program product of claim 144, wherein thecomputer program product is operable such that the vehicular assembly iscapable of receiving a software update via the network.
 149. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the particular content includes theapplication content which includes the on-line radio content.
 150. Thecomputer program product of claim 1, wherein the computer programproduct is operable such that the particular content includesweather-related information and is received in connection with at leastone of the different online applications, and the streaming content isreceived in connection with at least one of the different onlineapplications.
 151. The computer program product of claim 1, wherein thecomputer program product is operable such that the traffic servicecontent is received in connection with at least one of the differentonline applications and the application content includes the trafficservice content.
 152. The computer program product of claim 1, whereinthe computer program product is operable such that destination-relatedinformation is capable of being received in connection with at least oneof the different online applications via a network and the navigationsystem of the vehicular assembly is capable of creating a routeutilizing the destination-related information.
 153. The computer programproduct of claim 1, wherein the computer program product is operablesuch that a text message is caused to be sent to a mobile apparatus of athird party requesting location-related information, thereby allowingsubsequent receipt of the location-related information in connectionwith the mobile apparatus of the third party, and the navigation systemof the vehicular assembly is capable of creating a route utilizing thelocation-related information.
 154. The computer program product of claim1, wherein the computer program product is operable such that theparticular content includes weather-related information and is receivedin connection with at least one of the different online applications,and the streaming content is received in connection with at least one ofthe different online applications; wherein the computer program productis operable such that the traffic service content is received inconnection with at least one of the different online applications;wherein the computer program product is operable such thatdestination-related information is capable of being received inconnection with at least one of the different online applications via anetwork and the navigation system of the vehicular assembly is capableof creating a route utilizing the destination-related information;wherein the computer program product is operable such that a textmessage is caused to be sent to a mobile apparatus of a third partyrequesting location-related information, to enable subsequent receipt ofthe location-related information utilizing the mobile apparatus of thethird party, and the navigation system of the vehicular assembly iscapable of creating a route utilizing the location-related information;wherein the mobile phone content includes contacts database content, andfurther comprising: code for causing generation of a contacts databasecontent request for the contacts database content; code for causingtransmission of the contacts database content request; code for allowingreceipt of the contacts database content; code for causing output of thecontacts database content, utilizing the vehicular assembly; code forallowing receipt of a user request for driving directions to aparticular contact address from the mobile device, utilizing thevehicular assembly; code for, in response to the receipt of the userrequest for driving directions to the particular contact address,causing generation of the driving directions to the particular contactaddress; code for causing output of the driving directions to theparticular contact address, utilizing the at least one display of thevehicular assembly; code for allowing receipt of an oral user requestfor communication with a particular contact from a contacts databasestored on the mobile device, utilizing the vehicular assembly; and codefor, in response to the receipt of the oral user request forcommunication with the particular contact, allowing communication withthe particular contact.
 155. The computer program product of claim 154,wherein the computer program product is operable such that a user iscapable of transferring at least one aspect of a current call from themobile device to the vehicular assembly without having to hang up thecurrent call.
 156. The computer program product of claim 154, andfurther comprising: code for receiving a selection of an address from aweb page and a selection of predetermined indicia; and code for, inresponse to the selection of predetermined indicia, causing the addressto be sent for the purpose of allowing output of driving directions thatare based on the address, utilizing the navigation system of thevehicular assembly.
 157. The computer program product of claim 154,wherein using the certain content includes outputting the certaincontent.